METHOD AND SYSTEM FOR AUTOMATIC COMMODITIES FUTURES CONTRACT MANAGEMENT AND DELIVERY BALANCING

Information

  • Patent Application
  • 20100114753
  • Publication Number
    20100114753
  • Date Filed
    December 23, 2009
    14 years ago
  • Date Published
    May 06, 2010
    14 years ago
Abstract
A method and system for providing automatic commodity futures contract delivery management and balancing. A single electronic invoice and one or more different types of electronic reports are dynamically and automatically created for a trading party by allocating plural electronic delivery invoice receipts for plural futures contracts received from one or more electronic trading exchanges or open outcry trading exchanges where commodities futures contracts are being traded. The single electronic invoice includes a priority delivery order calculated using a pre-determined delivery priority scheme for plural futures contracts for which physical delivery of an associated commodity is occurring and provides an “integrated viewpoint” that aggregates commodity futures contract delivery management and balancing across all trading accounts on all commodity futures electronic trading exchanges and/or all commodity futures open outcry trading exchanges.
Description
COPYRIGHT NOTICE

Pursuant to 37 C.F.R. 1.71(e), applicants note that a portion of this disclosure contains material that is subject to and for which is claimed copyright protection, such as, but not limited to, screen shots, user interfaces, or any other aspects of this submission for which copyright protection is or may be available in any jurisdiction. The copyright owner has no objection to the facsimile reproduction by anyone of the patent document or patent disclosure, as it appears in the Patent Office patent file or records. All other rights are reserved, and all other reproduction, distribution, creation of derivative works based on the contents, public display, and public performance of the application or any part thereof are prohibited by applicable copyright law.


FIELD OF THE INVENTION

This invention relates to providing electronic information via a graphical user interface over a computer network. More specifically, it relates to a method and system for providing automatic futures contract delivery management and balancing for electronic trading and open outcry trading.


BACKGROUND OF THE INVENTION

A “commodity futures contract” or “futures contract” is a standardized contract to buy or sell a specified commodity of standardized quality at a certain date in the future and at a market-determined price.


Commodity futures contracts, are traded electronically and via open outcry pit trading, for example, at the Chicago Mercantile Exchange (CME), Chicago Board of Trade (CBOT), Commodities Exchange (COMEX), New York Mercantile Exchange (NYMEX), New York Board of Trade (NYBOT), Intercontinental Exchange (ICE), London International Financial and Futures Options Exchange (LIFFE), etc


A futures contract gives a contract holder an obligation to make or take physical delivery of an associated commodity (e.g., corn, wheat, gold, etc.) under the terms of the contract. Both parties of a futures contract must fulfill the terms of contract on the settlement date.


To exit the futures contract prior to the settlement date, the holder of a futures position has to offset his/her position by either selling a long position or buying back (covering) a short position, effectively “closing out” the futures position and its contract obligations.


Commodity futures contracts can be settled by making or taking actual physical delivery of the underlying commodity. The underlying commodities include physical commodities (e.g., corn, wheat, soybeans, gold, etc.) and financial commodities (e.g., bonds, etc.)


Generally, physical delivery of commodities includes taking delivery of basic resources such as crude oil, etc., agricultural products such as sugar, coffee beans, soybeans, rice, wheat, corn, soybeans, etc., metals such aluminum, gold, silver, etc. and financial instruments.


Physical delivery of commodities typically occurs to/from farmers, food processors, consumer product manufacturers, industrial product manufacturers, energy providers, airlines, financial institutions, etc. These parties actually use the physical commodities to produce, manufacture and sell many different types of goods and services.


There are several problems with taking physical delivery of a commodity from a futures contract traded electronically or via open outcry trading. One problem is keeping track of delivery dates for the arrival of the physical commodity. The delivery dates need to be sequence otherwise their arrival may overwhelm a receiving party. For example, a food processor may be able to handle 50,000 bushels of corn per day, but not 500,000 bushels.


Another problem is managing delivery dates from electronic trades as well as open outcry trading. Individual traders, brokers, trading companies, etc. may trade electronically as well as with an pit trader via open outcry trading.


Another problem is that most electronic trading systems do not provide automated delivery balancing of commodity futures contracts for which physical delivery of the underlying commodity is being accepted. These same electronic trading systems also do not provide automated balanced delivery reports on a GUI for such deliveries.


Thus, it is desirable to solve some of the problems associated with problems associated with managing and balancing of commodity futures contracts for which physical delivery of the underlying commodity is being accepted.


SUMMARY OF THE INVENTION

In accordance with preferred embodiments of the present invention, some of the problems associated with managing and balancing of commodity futures contracts for which physical delivery of the underlying commodity is being accepted are overcome. A method and system for providing automatic futures contract delivery management and balancing is provided.


A single electronic invoice and one or more different types of electronic reports are dynamically and automatically created for a trading party by allocating plural electronic delivery invoice receipts for plural futures contracts received from one or more electronic trading exchanges or open outcry trading exchanges where commodities futures contracts are being traded. The single electronic invoice includes a priority delivery order calculated using a pre-determined delivery priority scheme for plural futures contracts for which physical delivery of an associated commodity is occurring. The single electronic invoice also provides and “integrated viewpoint” that aggregates commodity futures contract delivery management and balancing across all trading accounts on all commodity futures electronic trading exchanges and/or all commodity futures open outcry trading exchanges.


The foregoing and other features and advantages of preferred embodiments of the present invention is more readily apparent from the following detailed description. The detailed description proceeds with references to the accompanying drawings.





BRIEF DESCRIPTION OF THE DRAWINGS

Preferred embodiments of the present invention are described with reference to the following drawings, wherein:



FIG. 1 is a block diagram illustrating an exemplary electronic trading system;



FIG. 2 is a block diagram illustrating an exemplary electronic trading display system;



FIG. 3 is a flow diagram illustrating a method for displaying electronic information for electronic trading;



FIG. 4 is a block diagram of a screen shot of an exemplary tools window;



FIG. 5 is a block diagram of a screen shot of an exemplary settings window;



FIG. 6 is a block diagram of a screen shot of an exemplary quotes and contracts window;



FIG. 7 is a block diagram of a screen shot of an exemplary order window;



FIG. 8 is a block diagram of a screen shot of an exemplary fill window;



FIG. 9 is a block diagram of a screen shot of an exemplary position and market data window;



FIG. 10 is a block diagram of a screen shot of an exemplary position and market data window for an order ticket from a sell position;



FIG. 11 is a block diagram of a screen shot of an exemplary position and market data window for a stop order;



FIG. 12 is a block diagram of a screen shot of an exemplary ABV window;



FIG. 13 is a block diagram of screen shot of an exemplary order ticket window;



FIG. 14 is a block diagram of a screen shot of an exemplary reports window;



FIG. 15 is a flow diagram illustrating a method for electronic trading;



FIGS. 16A and 16B are flow automated commodity futures contract delivery management and balancing;



FIG. 17 is a block diagram of screen shot of an exemplary single electronic invoice;



FIG. 18 is a block diagram of screen shot of an exemplary first report type;



FIG. 19 is a block diagram of screen shot of an exemplary second report type; and



FIG. 20 is a block diagram of a screen shot of an exemplary dedicated balanced delivery report window.





DETAILED DESCRIPTION OF THE INVENTION
Exemplary Electronic Trading System


FIG. 1 is a block diagram illustrating an exemplary electronic trading system 10. The exemplary electronic information updating system 10 includes, but is not limited to, one or more target devices 12, 14, 16 (only three of which are illustrated). However, the present invention is not limited to these target electronic devices and more, fewer or others types of target electronic devices can also be used.


The target network devices 12, 14, 16 are in communications with a communications network 18. The communications includes, but is not limited to, communications over a wire connected to the target network devices, wireless communications, and other types of communications using one or more communications and/or networking protocols.


Plural server network devices 20, 22, 24 (only three of which are illustrated) include one or more associated databases 20′, 22′, 24′. The plural network devices 20, 22, 24 are in communications with the one or more target devices 12, 14, 16 via the communications network 18. The plural server devices 20, 22, 24, include, but are not limited to, World Wide Web servers, Internet servers, file servers, other types of electronic information servers, and other types of server network devices (e.g., edge servers, firewalls, routers, gateways, etc.).


The plural server network devices 20, 22, 24 include, but are not limited to, servers used for electronic trading exchanges, servers for electronic trading brokers, servers for electronic trading information providers, etc.


The one or more target network devices 12, 14, 16 may be replaced with other types of devices including, but not limited to, client terminals in communications with one or more servers, or with personal digital/data assistants (PDA), laptop computers, mobile computers, Internet appliances, two-way pagers, mobile phones, or other similar desktop, mobile or hand-held electronic devices. Other or equivalent devices can also be used to practice the invention.


The communications network 18 includes, but is not limited to, the Internet, an intranet, a wired Local Area Network (LAN), a wireless LAN (WiLAN), a Wide Area Network (WAN), a Metropolitan Area Network (MAN), a Public Switched Telephone Network (PSTN) and other types of communications networks 18.


The communications network 18 may include one or more gateways, routers, bridges, switches. As is known in the art, a gateway connects computer networks using different network protocols and/or operating at different transmission capacities. A router receives transmitted messages and forwards them to their correct destinations over the most efficient available route. A bridge is a device that connects networks using the same communications protocols so that information can be passed from one network device to another. A switch is a device that filters and forwards packets between network segments. Switches typically operate at the data link layer and sometimes the network layer therefore support virtually any packet protocol.


The communications network 18 may include one or more servers and one or more web-sites accessible by users to send and receive information useable by the one or more computers 12. The one or more servers, may also include one or more associated databases for storing electronic information.


The communications network 18 includes, but is not limited to, data networks using the Transmission Control Protocol (TCP), User Datagram Protocol (UDP), Internet Protocol (IP) and other data protocols.


As is know in the art, TCP provides a connection-oriented, end-to-end reliable protocol designed to fit into a layered hierarchy of protocols which support multi-network applications. TCP provides for reliable inter-process communication between pairs of processes in network devices attached to distinct but interconnected networks. For more information on TCP see Internet Engineering Task Force (ITEF) Request For Comments (RFC)-793, the contents of which are incorporated herein by reference.


As is known in the art, UDP provides a connectionless mode of communications with datagrams in an interconnected set of computer networks. UDP provides a transaction oriented datagram protocol, where delivery and duplicate packet protection are not guaranteed. For more information on UDP see IETF RFC-768, the contents of which incorporated herein by reference.


As is known in the art, IP is an addressing protocol designed to route traffic within a network or between networks. IP is described in IETF Request For Comments (RFC)-791, the contents of which are incorporated herein by reference. However, more fewer or other protocols can also be used on the communications network 18 and the present invention is not limited to TCP/UDP/IP.


Exemplary Electronic Trading Display System


FIG. 2 is a block diagram illustrating an exemplary electronic trading display system 26. The exemplary electronic trading system display system includes, but is not limited to a target device (e.g., 12) with a display 28. The target device includes an application 30 that presents a graphical user interface (GUI) 32 on the display 28. The GUI 32 presents a multi-window interface to a user.


In one embodiment of the invention, the application 30 is a software application. However, the present invention is not limited to this embodiment and the application 30 can firmware, hardware or a combination thereof.


An operating environment for the devices of the electronic trading system 10 and electronic trading display system 26 include a processing system with one or more high speed Central Processing Unit(s) (“CPU”), processors and one or more memories. In accordance with the practices of persons skilled in the art of computer programming, the present invention is described below with reference to acts and symbolic representations of operations or instructions that are performed by the processing system, unless indicated otherwise. Such acts and operations or instructions are referred to as being “computer-executed,” “CPU-executed,” or “processor-executed.”


It is appreciated that acts and symbolically represented operations or instructions include the manipulation of electrical signals by the CPU or processor. An electrical system represents data bits which cause a resulting transformation or reduction of the electrical signals, and the maintenance of data bits at memory locations in a memory system to thereby reconfigure or otherwise alter the CPU's or processor's operation, as well as other processing of signals. The memory locations where data bits are maintained are physical locations that have particular electrical, magnetic, optical, or organic properties corresponding to the data bits.


The data bits may also be maintained on a computer readable medium including magnetic disks, optical disks, organic memory, and any other volatile (e.g., Random Access Memory (“RAM”)) or non-volatile (e.g., Read-Only Memory (“ROM”), flash memory, etc.) mass storage system readable by the CPU. The computer readable medium includes cooperating or interconnected computer readable medium, which exist exclusively on the processing system or can be distributed among multiple interconnected processing systems that may be local or remote to the processing system.


Exemplary Method for Processing Electronic Information for Electronic Trading


FIG. 3 is a flow diagram illustrating a Method 34 for processing electronic information for electronic trading. At Step 36, one or more sets of electronic trading strategy information is obtained via one or more windows on a application 30 on a target device 12, 14, 16 to automatically execute one or more electronic trades on one or more electronic trading exchanges 20, 22. At Step 38, one or more sets of electronic trading information are continuously received on the application 30 via one or more application program interfaces (API), fixed or dynamic connections from one or more electronic trading exchanges 20, 22. At Step 40, the one or more sets of electronic trading information are displayed in one or more windows on the GUI 32 via application 30. At Step 42, a test is conducted to determine if any electronic trades should be automatically executed based on the one or more sets of electronic trading strategy information. If any electronic trades should be automatically executed, at Step 44, one or more electronic trades are automatically electronically executed via application 30 an appropriate electronic trading exchange 20, 22. At Step 45, results from any automatic execution of any electronic trade are formatted and displayed in one more windows on a multi-windowed graphical user interface (GUI) 32.


In one embodiment the one or more sets of electronic trading strategy includes a pre-determined trading strategy created by a trader, if-then trading strategies, one-cancels-other (OCO) trading strategies and electronic trading strategies for synthetic instruments or synthetic contracts, or execution of strategies based on previously executed orders.


As is known in the art, the pre-determined strategy trading strategy is a pre-determined trading strategy developed by a trader to apply to a desired market (e.g., cash, futures, stocks, bonds, options, spreads etc.)


As is known in the art, a “synthetic” instrument or contract includes an instrument or contract that does not really exist on any electronic trading exchange. A synthetic can be made up of one, or several contracts that trade on an exchange or multiple exchanges. For example, a synthetic contract may include automatically selling a call and buying a put. Such a synthetic contract does not exist on any trading exchange but is desirable to a selected group of traders


As is known in the art, an API is set of routines used by an application program to direct the performance of actions by a target device. In the present invention, the application 30 is interfaced to one or more API.


In another embodiment, the application 30 is directly interfaced to a fixed or dynamic connection to one or more electronic trading exchanges without using an API.


In one exemplary embodiment of the invention, the application 30 interfaces with a Client API provided by Professional Automated Trading Systems (PATS) of London, England, or Trading Technologies, Inc. (TT) of Chicago, Ill. GL Multi-media of Paris, France and others. These APIs are intermediate APIs between the Application and other APIs provided by electronic trading exchanges. However, the present invention is not limited to such an embodiment and other APIs and other fixed or dynamic connections can also be used to practice the invention.


The application 30 presents a user a multi-windowed GUI 32 that implements the functionality exposed through API provided by electronic trading exchanges. The application 30 allows the user to subscribe to and receive real-time market data. Additionally, the application 30 allows the user to enter futures orders, cash orders, and other types of financial products orders to all supported exchanges and receive real-time order status updates. The application 30 supports at least two methods of order entry; Order Ticket and Aggregated Book View/Ask Bid Volume (ABV).


The application 30 provides flexibility to the user to configure the display of electronic information on the GUI 32. The application 30 and the GUI are now described in further detail.


Desktop Layout Management

The application 30 provides the ability to manage Desktop Layouts. A Desktop Layout is a state of a GUI 32 as it appears to a user. This includes, but is not limited to, number of windows, types of windows, and the individual window settings. A user is able maintain a list of available Desktop Layouts. Each Desktop Layout has a unique name within the application 30. The user is able to create a new Desktop Layout and save it, giving it a unique name. When the user saves a Desktop Layout, it is not saved in a minimized state but is instead saved in an expanded state. The user is able to rename, copy, and delete a Desktop Layout. The user is able to load a saved desktop layout, replacing the currently displayed configuration. The application 30 receives and loads desktop layout templates from the communications network 18 upon user login. The user is able to export and import desktop layouts in order to port them from target device to target device. Desktop Layouts are saved on a user by user basis (e.g., by username). If two users access the application 30 from the same target device 12, each user sees their own list of layouts upon login.


The application 30 is launched from target device 12, 14, 16 or via the network 18 (e.g., the Internet, an intranet, etc.) The application 30 is installed on a target device 12, 14, 16 or the communications network 18. Upon startup, the application 30 detects if a new version is available. If the application 30 detects that an upgrade is warranted, a window appears, asking the user if they would like to install the latest version now. In one embodiment, if the user chooses not to install the latest version upon startup, the current (older) version of the application 30 is launched. In another embodiment, another prompt is displayed when the user logs off. In the case of a critical update, the user is not able to choose to run the application 30 without installing the update.


The application 30 is pushed information that determines which servers the application 30 is to connect to. IP addresses or Domain Name Servers (DNS) names are pushed to the client when upon login.


In one embodiment, the application 30 can be used by up to about 5,000 simultaneous users. Scalability allows the application 30 to be used by up to about 20,000 simultaneous users. However, the present invention is not limited to such an embodiment and other embodiments with other numbers of simultaneous users can also be used to practice the invention.


The application 30 indicates the status of a host connection 20, 22, 24 on the communications network 18. As a minimum, “Connecting,” “Connected” and “Not Connected” statuses are indicated. The application 30 indicates the status of an electronic trading exchange server connection 20, 22. As a minimum, “Connecting,” “Connected” and “Not Connected” statuses are indicated for the electronic trading exchange server connection.


If settings (e.g., accounts, contracts, etc.) change on a host system 20, 22, 24, the application 30 updates the settings. The user does not have to log back in to see the changes. The application 30 has the ability to detect if any changes to accounts or contracts have been made. The application 30 is able to detect when a system administrator has changed a network address (e.g., an Internet Protocol (IP) address, etc.) of the primary transaction server for a client.


The application 30 can log off of one network address and log onto another. Data integrity is maintained when a network address change has been made. The application 30 notifies the user of any working orders or open positions before closing. The user has the opportunity to cancel the logout if they would like to cancel working orders or close the open positions. The application 30 performs the normal logoff cycle when closed by the user. The application 30 saves all data needed to return it to the state it was in when the application 30 was closed. The application 30 saves all data necessary to restore it to the current state in the case of a catastrophic application 30 failure. If the user does not choose to download the most recent version of the application 30 upon startup, a message appears upon logoff asking the user if they would like to install the upgrade before closing.


The application 30 gracefully log users out at end of day. The user receives a warning message, stating that the session is about to be closed. The user needs to log back in to reestablish the connection. The application 30 allows the user to combine the display of data of different types. Data types include, but are not limited to, Orders, Fills, Positions and Market Data. The application 30 supports the functionality exposed through the current version of a client API.


The application 30 supports data format differences between exchanges that are not normalized by the client API. The application 30 supports differences between exchange order handling semantics that are not normalized by the client API. The application 30 gracefully handles spreads. The application 30 support systems with multiple monitors. All exchange contracts supported by a platform are considered by the application 30. Online user documentation is available to the user. The application 30 runs on Windows 2000, Windows XP operating systems and other windowed operating systems (e.g., Linux, etc.). The application 30 architecture is flexible in order to allow additional functionality to be added when needed.


Standard Windows Grid

In a Standard Windows Grid, a user can select from a list of columns to display. The user is able to add or remove columns, but all columns may not be able to be removed and certain columns may need to be added in order to add other columns (if there are dependencies). Each window will have certain columns that appear in the grid by default. The grid has a column heading with a caption (column name).


The user can change an order of the displayed columns by dragging the column heading to a new position. The user can manually resize a column. The user can resize all columns to fit the screen. The user can resize all columns to fit their contents. The user can resize a selected column to fit the column's contents. This is accomplished by double clicking on the column heading's right border. The user can change the foreground and background colors of a column. The user can rename any grid column. The user can restore the default grid column names. The user can restore all default grid settings.


The user can change the font for all columns in the grid. This includes, but is not limited to font type, color and size. The user can change the font for an individual column. This includes, but is not limited to, font type, color and size. The user can sort the data in the grid by clicking on a column heading. The user can sort the data in ascending or descending order. The user can create multiple sort criteria. The user can create a filtered view of the information in a grid. The user can filter on multiple criteria for non-numeric columns. Filters can include more then one column. Multiple filters for numeric columns can be created (e.g., for an =, ≠, <, >, ≦ or ≧ operation, etc.). This functionality also allows the user to choose a range. The user can remove filters from a grid. Data in a grid will continue to be updated while a filter is applied.


Login Window

A Login window will be launched via the application 30 when the application 30 is first accessed by the user. A user will enter a user name and password in order to log into the application 30. A successful login will allow the user full access to multi-windowed GUI 32 functionality. A failed login displays a message to the user, indicating that either the user name or password were invalid, but not which one. If Caps Lock is on, the failed login message the application 30 indicates this fact. The failed login message reminds the user about case sensitivity. The user is able to change passwords. The user does not have to be logged into the communications network 18 to change passwords.


The application 30 updates a database with the new password. All characters entered into a password field will be visible to the user as asterisks. A single login allows the user access to all supported and enabled exchanges.


Application Manager Window

An Application Manager Window allows the user to access all of the functionality of the application 30. It is via these windows that other application windows are launched and managed. The GUI 32 windows are automatically launched once the user has successfully logged in. Only one Application Manager window is launched by the application 30.


The Application Manager Window, by default, is a member of every display layout on the GUI 32 and cannot be removed. The user is able to view a list of available Desktop Layouts and select one to work with.


The user can create a new Tools window, Settings window, Contact and Quotes Window, Orders and/or Fills window, Positions/Market Data window, Aggregated Book View window, Order Ticket window and Reports window from the Application Manager Window. The user can also open a saved window from the Application Manager Window.


The user can maintain Desktop Layouts from the Application Manager Window. The user can minimize all windows and restore all windows from the Application Manager Window.


Client Messaging Window

A Client Message Window allows the user to view system messages, trading exchange messages and alerts. This window is automatically launched once the user has successfully logged in. In one embodiment, only one Client Messaging window may be launched by the application 30. In another embodiment, more than one Client Message windows may be launched by the application 30. The Message display, by default, is a member of every display layout and cannot be removed. Users who are logged on must be able to receive system messages, communications from office personnel, electronic trading exchange messages and alerts from various electronic trading exchanges 20, 22. Alert receipts are displayed for the user. The window displays the entry and cancellation of orders (as messages). Alerts are given a priority, including, but not limited to, of “Critical,” “High,” “Medium” or “Low.”


Alerts of a high priority are presented in a more intrusive manner than lower priority alerts. Upon login, users receive alerts from the current day that were sent while they were logged off. The user is able to turn off the display of alerts and are able to turn off the display of messages.


Tools Window


FIG. 4 is a block diagram of screen shot of an exemplary Tools window 46 produced by application 30 and displayed on the GUI 32. The Tools window 46 is used to launch other windows described herein on the GUI 32.


Settings Window


FIG. 4 is a block diagram of screen shot of an exemplary Settings window 48 produced by application 30 and displayed on the GUI 32. The Settings window 48 allows the user to enter application-wide settings (such as defaults, etc.) This window 48 is accessible via the Manager window. The window 48 is different from any other window in the application. Multiple Settings windows cannot be opened, and this window is not part of a Desktop Layout.


The Settings window 48 displays network address (e.g., local and Internet IP addresses) of a target device 12, 14, 16. The Setting window 48 displays the Host and Price server IP addresses and ports that are being used by the application 30.


In one embodiment, the user loads settings from a settings file via the Settings window 48. The settings file contains information necessary to replicate the configuration of an application, including settings and desktop layouts. For audible alerts, each alert should have a different sound. The user can browse for sound files to assign to events. In another embodiment, settings are loaded from automatically from data structure within the application 30.


The user can turn on or off audible and/or visual alerts for the events listed below in Table 1. However, the present invention is not limited to these audible and/or visual alert events and more, fewer or other types of audible and/or visual alert events can be used to practice the invention.











TABLE 1









Logout



Login



Receipt of a fill



Entry of an order



Entry of an order amend



Entry of a cancel request



Receipt of an order



Receipt of a cancel



Receipt of an amend



Receipt of a reject



Receipt of a message



Order state timeouts



Loss of connection to the host server



Loss of connection to the price server



Reconnection to the host server



Reconnection to the price server



Receipt of SARA alerts



A different sound/visual alert is used for each priority level.



Limit breach



Contract breach



Exchange disabled



Stop price triggered for synthetic stops and stop limit orders



Pull all orders



End of day/End of market



By exchange



This information is downloaded on login if an update is needed.



Custom Reminders



OCO fill



OCO cancel



Parked order violated



If Then fill



If Then cancel



P/L bracket fill



P/L bracket cancel










The user can set the following defaults for an order ticket listed in Table 2. However, the present invention is not limited to these defaults and more, fewer or other types of defaults can be used to practice the invention.









TABLE 2







Default Account


Default Exchanges and Contracts


Default Order Type


  The user can set the default order type by exchange or to set the same default


  for all exchanges.


Default side


Default Quantity


  The user can set the default quantity by instrument or to set the same default for


  all instruments.


Close after order entry


  The user can determine whether or not the Order Ticket should close by default


  after an order has been entered.


Quantity set to zero after order entry


  The user can determine whether or not the order quantity should return to zero


  once an order has been placed.


Default price for limit orders - Sell


  The user can determine whether the price for sell limit orders should default to


  current bid, ask, or last.


Default price for limit orders - Buy


  The user can determine whether the price for buy limit orders should default to


  current bid, ask, or last.


Other Settings


Always on Top


  The user can set which window should stay on top by default (if any).


  This default may be overridden on a window by window basis.


Order State Timeouts


  The user can set the amount of time that an order can remain in a state of Sent,


  Queued, Cancel Pending or Amend Pending before an order state timeout alert


  is generated.


Custom Reminders


  The user can create and maintain a list of custom reminders, which will create an


  audible and visual alert at the set date and time.


  The user can assign a title, date, time and description to each reminder.


  Custom reminders are saved on the local machine.


ABV Market Depth


  The user can set the amount of market depth displayed on the ABV window.


  A Market Depth setting greater than the maximum depth disseminated by the


  exchange will be treated as the exchange maximum.


Hot Keys


  The user can assign program shortcuts to keyboard function keys.


Fonts


  The user can set a default font for all text on all windows.


  The user can restore all fonts to the font selected here (after changes have been


  made on individual windows).


Key Pad (for Quantity)


  The user can assign the values for keypad buttons.


  These values will be displayed on the key.


Order Quantity Limits (Fat Finger Rules)


  The user can set the maximum quantity that may be entered for an order.


  An order exceeding this limit will not be entered.


Commissions


  The user can enter commission amounts by exchange and/or by instrument.


  The commissions set here are used in the user's P&L calculations.


Print Reports


  The user can choose whether or not a window should appear upon logoff, asking


  if reports should be printed.


  From the window (if displayed), the user should be able to specify which reports


  are printed.









Contracts and Quotes Window


FIG. 6 is a block diagram of screen shot of an exemplary Quotes and Contracts window 50 produced by application 30 and displayed on the GUI 32. The user can select which exchange 52 (e.g., Chicago Mercantile Exchange (CME), Chicago Board of Trade (CBOT), New York Stock Exchange, etc.) and which instruments, contract and contract date combinations (e.g., Mini NSDQ March 2005) to display 54. Market data associated with a position by the unique instrument information is also displayed.


Order and Fills Windows

The user is able to display any combination of order and fill information that they choose (although some information must be displayed in order for other information to be displayed) in Order and Fill windows respectively. The user is provided with an Orders template and a Fills template, which will each display different default data (and, therefore, provide different functionality based on user defined preferences set via the Settings window 48).



FIG. 7 is a block diagram of screen shot of an exemplary Order window 56 produced by application 30 displayed on GUI 32. Typically, an order is created by the user and submitted to an electronic trading exchange 20, 22 for possible execution. One exception to this is the Parked order. In this case, the application 30 saves the order until it is released by the user to the electronic trading exchange 20, 22.


In one embodiment, the Order window 56 displays, but is not limited to, a controls identifier, a state identifier (e.g., rejected, working, filled, held) an account identifier (e.g., APIDEV5), an order number, an instrument identifier (e.g., CME\MINI S&P), a side designation identifier (e.g., buy or sell), a quantity, a price, a type identifier (e.g., limit, pre-defined stop price, market price) an average price. However, the present invention is not limited to displaying these items and more, fewer or other items can be displayed in the Order window 56 to practice the invention.



FIG. 8 is a block diagram of screen shot of an exemplary Fills window 58 produced by application 30 displayed on GUI 32. Typically, a fill is an acknowledgment from an electronic trading exchange 20, 22 where the order was submitted that all or part of the order was executed. A special case is an external fill. An external fill is submitted manually by a system administrator.


In one embodiment, the Fills window 58 displays, but is not limited to, a control identifier, an order identifier, an instrument identifier, a side identifier, a fill quantity, a fill identifier and a fill price. However, the present invention is not limited to displaying these items and more, fewer or other items can be displayed in the Fills window 58 to practice the invention.


A new or saved Order and Fill windows 56, 58 can be launched from the Application Manager window. When the user creates and submits an order to an electronic trading exchange 20, 22, an order with a quantity greater then the maximum order limit will be rejected by the application 30. The user can create a trailing stop order against a filled order. The user is also able to create a Profit/Loss bracket around a filled order.


The user can also create a “Parked” order. A Parked order is an order that is created by the user but not submitted to an electronic trading exchange 20, 22. Parked orders are saved by the application 30 and made available to the user between application 30 launches. The user can change a working order to a parked order and visa versa. Changing a working order to a parked order, the application 30 sends a cancel to the selected electronic trading exchange 20, 22. On receipt of the cancel acknowledgement, the application 30 will change the order state to indicate that the order is parked.


The user can also submit a Parked order to an electronic trading exchange 30. The user can submit all parked orders at once. The user can select certain parked orders to submit (at once). The user can change the electronic trading exchange and/or contract for a parked order. If the user changes the contract, the application 30 will verify that the entered price is valid for the new contract. If the entered price is invalid for the new contract, the application 30 will prompt the user to change the price. The user can change the account for a parked order.


The user can cancel a working order. In one embodiment, a working order can be canceled with a single mouse click. In another embodiment a working order can be canceled with two mouse click, one to cancel the order and one to confirm cancellation. The user can cancel all working orders in a selected account, cancel all working buy orders in the selected account, all working sell orders in the selected account.


The user can delete a parked order. The use can delete a parked order with a single mouse click. The user can delete all parked orders in a selected account. The user can delete all parked orders in all accounts.


The user can change the following order information (for a working order) illustrated in Table 3. However, the present invention is not limited to this order information and more, fewer or other types of order information can be used to practice the invention.









TABLE 3







Prices (stop/limit/stop limit)


Quantity


  The user must be able to display the detailed order history for an


  order (both parked orders and those submitted to an exchange.


The order history includes orders that led to the current order if the order


was created by a cancel/replace or a parked order.









The user can also create a trailing stop order against a fill. The user can create a Profit/Loss bracket around a fill. The user can launch an Order Ticket window from a specific fill. When an Order Ticket is opened from a fill, the ticket is pre-populated with the data that corresponds to that fill (e.g., exchange, instrument, quantity, etc.)/The side of the Order Ticket will be opposite that of the fill. Supported order types will be available to be created from the Order Ticket. Trailing stops and brackets can be linked to another order, such as a limit order. When this order is executed the Trailing Stop or bracket, etc. is then submitted to the market, or held “working” on the target device 12, 14, 16.


The Fills window 58 displays a detailed view of a fill. A fill detail includes all available fill information (including partial fills). The application 30 handles external fills. The application 30 uses separate display indicators if the fill is external (e.g., color difference, etc) on the GUI 32.


In one embodiment, Order and Fill information is displayed following standard window rules laid out by the Standard Window. The data in this Order and Fill window is displayed in the standard grid format, as described in the Standard Grid. This window will display order and fill data. The user chooses which fields should be displayed in the grid (some fields will appear by default) on the GUI 32.


Table 4 illustrates a list of order information that used in the Order and Fill windows 56, 58. Most of the information is exposed through the APIs used. However, in a few cases the information is calculated. These exceptions are indicated where they occur. However, the present invention is not limited to this order information and more, fewer or other types of order information can be used to practice the invention.









TABLE 4







Order ID


Display ID


Exchange Order ID


User Name


Trader Account


Order Type


Exchange Name


Contract Name


Contract Date


Buy or Sell


Price


Price2


Lots


Linked Order


Amount Filled


Number of Fills


Amount Open


 This field is calculated by the application 30 using contract lots


 minus amount filled.


Average Price


 This field (the average price of all fills that make up an order) is


calculated by the application 30 because the API does not return the


correct value if there is only one lot.


Status


Date Sent


Time Sent


Date Host Received


  This field will not display to the user, but is used for logging.


Time Host Received


  This field will not be displayed to the user, but is used for logging


Date Exchange Received


  This field will not be displayed to the user, but is used for logging.


Time Exchange Received


Date Exchange Acknowledged


Time Exchange Acknowledged


Non Execution Reason


Good-Till-Date









Table 5 illustrates a list of fill information that used in the Order and Fill windows 56, 58. Most of the information is exposed through the APIs used. However, in a few cases the information is calculated. These exceptions are indicated where they occur. However, the present invention is not limited to fill information and more, fewer or other types of fill information can be used to practice the invention.









TABLE 5







Display ID


Exchange Order ID


User Name


Trader Account


Order Type


Exchange Name


Contract Name


Contract Date


Buy or Sell


Lots


Price


Average Price


  This field will need to be calculated by the application because the


  API does not return the correct value if there is only one lot.


Date Filled


Time Filled


Date Host Received


  This field will never be displayed to the user, but is used for logging.


Time Host Received


  This field will never be displayed to the user, but is used for logging


Fill Type


Fill, External, Netted, Retained









Positions/Market Data Window


FIG. 9 is a block diagram of screen shot of an exemplary GUI 32 Position and Market Data window 60 produced by application 30 displayed on the GUI 32. The Positions and Market Data Window 60 provides representation and display of open positions and market data in the application 30.


In one embodiment, the Positions and Market Data window 60 includes, but is not limited to a display of a controls identifier, an account identifier, a net position, a number of buys, a number of sells, an average price, an last price and a total. However, the present invention is not limited to displaying these items and more, fewer or other items can be displayed in the Position and Market Data window 58 to practice the invention.


The user can display any combination of order and fill information that they choose (although some information must be displayed in order for other information to be displayed). The user is provided with an Orders template and a Fills template, which will each display different default data (and, therefore, functionality).


An “open position” is a long, short, or profit or loss in an instrument or contract in an account. This open position is the aggregation of all the fills received in the instrument. Market data is delivered to the application 30 in real-time through the APIs used. A new or saved Positions/Market window 60 can be launched from the Application Manager window. The user can launch an Order Ticket window 84 from a specific position.



FIG. 10 is a block diagram of screen shot of an exemplary Position and Market Data window for an Order Ticket from a sell position 62 produced by application 30 and displayed on the GUI 32. When a ticket is opened from a position, an Order Ticket window 84 is pre-populated with the data that corresponds to that position (e.g., exchange, instrument, quantity, etc.). For example in FIG. 10, an Order Ticket window includes data (e.g., APIDEV5, CME\MINI S&P, Limit, Limit Px 4.45, Quantity 2, etc.). The side of the Order Ticket will be opposite that of the position. The user can launch a window that will allow them to create a Profit/Loss (P/L) Bracket around an open position. The order sides default to opposite of the position. The order quantities default to the position quantity. The user can also launch a window that will allow them to create a Stop or Stop Limit order against an open position.



FIG. 11 is a block diagram of screen shot of an exemplary Position and Market Data window for a sell stop order 64 produced by application 30 displayed on the GUI 32. The order side defaults to opposite of the position. The order quantity defaults to the position quantity. The user can also launch a window that will allow them to create a Limit order against an open position. The order side defaults to opposite of the position. The order quantity defaults to the position quantity.


The user can display all of the fills that comprise a position. The user can flatten the open position in the instrument for the selected account. The window 60 includes a Flatten button for flattening a net position. When the user chooses to flatten, working orders for the instrument are canceled and an order is entered that flattens the net position (i.e., the quantity of the order will be equal to the net position and the order will be placed on the opposite side of the net position). The flattening is achieved with a single order (i.e., the user cannot enter more than one order to flatten).


Position information and Market Data is displayed following standard window rules laid out in the Standard Window. The data in this window 60 is displayed in the standard grid format, as described in the Standard Grid.


Table 6 illustrates a list of position information that is available from this window 60. However, the present invention is not limited to this position information and more, fewer or other types of position information can be used to practice the invention.











TABLE 6









Account



Exchange Name



Contract Name



Contract Date



Net Position



Avg. Price



Open P&L



Cumulative P&L



Total P&L



Commission










The GUI 32 will also show market data and position information. The user chooses which fields should be displayed in the grid (i.e., some market data fields will appear by default). Table 7 is a list of market data that is available from this window 60. However, the present invention is not limited to this market data more, fewer or other types of market data can be used to practice the invention.











TABLE 7









Exchange Name



Contract Name



Contract Date



Bid Price



Bid Size



Ask Price



Ask Size



Last Traded Volume



Net Price Change



Last Traded Price



High Price



Low Price



Opening Price



Closing Price



Total Traded Volume



Contract Status



  This is the status of the contract on the exchange (i.e. open,



  pre-open, trading, etc.)










Aggregated Book View (ABV) Window

The ABV Window allows the user to view bid size and offer size by price for a particular instrument in a market depth-type format. The window displays working orders for a selected account in a single instrument. The data on this window is displayed and updated in real-time. The window also allows the user to enter various order types. In one embodiment, two ABV windows are displayed by default. In another embodiment, one or more than two ABV windows are displayed by default.



FIG. 12 is a block diagram of screen shot of an exemplary ABV window 66 produced by application 30 displayed on GUI 32. The ABV window 66 includes a dynamically displayed Price column 68.


In one embodiment, the ABV window displays a buy column, a bid column, a dynamic price column, an ask column, a sell column, a quantity column, a re-center button, a cancel buy button, a cancel sell button, a cancel all button, a market buy button, a flatten button, a bracket button, a TStop button, a net position and a total P/L. However, the present invention is not limited to displaying these items and more, fewer or other items can be displayed in the ABV window 66 to practice the invention.


The user can select an instrument or contract to view in an ABV window 66, and can change the instrument or contract from this window 66. Changing the instrument or contract changes the data displayed to that of the selected instrument or contract. The user can select an account from available accounts. The window 66 displays the total quantity of orders working in the market at each price. Both buy and sell quantities are displayed. Quantities are updated as the instrument order book changes. The window 66 displays an indicator depicting the all of the user's open orders, for the selected account, at each price. The window 66 indicates a state of each order. Open order states include, but are not limited to: Queued, Sent, Working, Part Filled, Cancel Pending and Amend Pending, Held, Cancelled, Filled.


This window 66 indicates the order type for each order. The window 66 indicates the working quantity of each order. The window 66 displays parked orders for the selected instrument. The window 66 displays the user's net position in the selected instrument for the selected account. The window 66 displays the trade quantities for each corresponding price level. The user can select to view the total quantity currently trading at a price. This quantity is increased as each trade at a price occurs. The cumulative quantity remains in the window 66 until the price changes (at which time the cumulative trade quantity for the new price will be shown).


The user selects to view the last quantity currently trading at a price. This view shows the individual trade quantities. Only quantities for the current price are shown. The window 66 displays the total traded volume for the instrument. The window 66 displays all of the aforementioned data at once.


The user sets and adjusts the specified quantity for orders entered via this window 66. The quantity is set via a spinner, text entry or keypad entry. Each key-pad input increases a specified quantity by an amount displayed on the key (key value). The user selects to have the specified quantity set to zero after order entry. The user resets the quantity to zero (i.e., without entering an order). A right click on the mouse increases the quantity, left click decreases the quantity.


Orders entered via this window 66 will have a quantity equal to the quantity specified at time of entry. The default account for any orders entered from the ABV window 66 is the selected account. The can enter a limit order by clicking a cell in the bid quantity or offer quantity columns. Limit orders are default order type.


Order side will be set to BUY if the user clicks in the bid quantity column 70. Order side will be set to SELL if the user clicks in the offer quantity column 72. Orders will have a quantity equal to the specified quantity. Order limit price must equal the price corresponding to the clicked offer/bid quantity.


The user enters a stop order by clicking a cell in the bid or offer quantity columns 70, 72. Order side will be set to BUY if the user clicks in the bid quantity column 70. Order side will be set to SELL if the user clicks in the offer quantity column 72. Orders must have a quantity equal to the specified quantity. The order stop price will equal the price corresponding to the clicked offer/bid quantity. The order is entered for the selected account. The user is able to enter a buy stop below the market or a sell stop above the market. If the user does this, a window appears, warning the user that the buy or sell will be immediately executed.


The user can enter an OCO (One Cancels Other) pair of orders. The user can also enter a profit/loss bracket. The user can enter a trailing stop. The user can also enter an “If-Then Strategy.”


The user can change the limit price of a working limit order by dragging the working order indicator to a new price. The user can change the stop price of a working stop order by dragging the working order indicator to a new price. This will cause a cancel replace to be entered at the electronic trading exchange 20, 22. The user can change the quantity of a working order by right clicking in the cell displaying the working order. A right click on a mouse displays a context menu listing order quantities centered on the current quantity. The user can also adjust account number.


The user can cancel a working order with a single mouse click. The user can cancel all open orders in the instrument for the selected account. The can cancel all open buy orders in the instrument for the selected account. The user can cancel all open sell orders in the instrument for the selected account.


Users can have orders at a price displayed as a concatenated total, or displayed as each individual order. When the display of individual orders is to large for the display, individual orders will be displayed starting with the first order entered and then the remaining orders that do not fit in the display will be concatenated. Concatenated orders are indicated as such using a symbol that is attached to the total. Users can also adjust the display of the ABV by adding or removing columns, buttons and functions.


The user uses the open position in the instrument for the selected account. This window 66 includes a Flatten button for flattening the net position. When the user chooses to flatten, all working orders for the instrument are canceled and an order is entered that flattens the net position (i.e., the quantity of the order will be equal to the net position and the order will be placed on the opposite side of the net position). The flattening is achieved with a single order (i.e., the user cannot enter more than one order to flatten).


The user can center the dynamic Price column 68 on the current market. The user can scroll the dynamic Price column 68 to display prices above or below the current market. All data is displayed real-time.


This ABV window 66 follows the standard window rules laid out in the Standard Window. The data in this window is displayed in a grid, but this grid will not follow all of the standard grid rules.


The user can choose from a list of columns to display. Certain columns will be displayed by default. Certain columns will not be removable (price for example). The user can change the order of the displayed columns by dragging a column heading to a new position. The user can manually resize a column. The user can resize all columns to fit the screen. The user can resize all columns to fit the contents. The user can resize a selected column to fit the contents. Double clicking on the column heading border sizes a column so that data only is displayed with no redundant space.


The user can change the font for all columns in the grid. The user can change the font for an individual column. The user can change the foreground color of a column. The user can change the background color of a column. The user can restore the default grid settings.


The ABV window 66 is resizable. When it is resized, the columns expand and contract so that all data is still shown. However, after resizing the window, the user can resize the columns to get rid of wasted space and then change the font size (i.e., so it's more readable when the screen is small).


This ABV window 66 will display the following fields illustrated in Table 8 in a ladder format. However, the present invention is not limited there fields and more, fewer or other types of fields can be used to practice the invention.









TABLE 8







Price


  Centered on the current market prices when launched.


Market Bid Quantity


Market Offer Quantity


Trade Quantity as determined in section 11.3 above


Open Buy Orders indicating status, type and quantity for each order


Open Sell Orders indicating status, type and quantity for each order


Parked Orders









The ABV window 66 displays real-time data for a particular contract, allowing a user to get a current snapshot of the market. Thus, the ABV window 66 can also be considered an “Ask, Bid, Volume” window.


An instrument or contract can be added to an open ABV window 66 in the same way that a contract was added to the Quotes window 50. Simply select the contract that to display and then drag it into the ABV window 66. Contracts can be dragged from any of the windows displayed on the screen.


Once a contract has been added to the ABV window, the data illustrated in Table 9 is displayed on the ABV window.









TABLE 9







A current number of Bids 70 and Asks 72 on an electronic trading exchange 20, 22 for


particular price levels.


A total quantity currently trading at a certain price.


A number in parentheses 74 next to the total quantity is the last quantity traded at that


price.


A price in red is the daily high 76. A price shown in blue is the daily low 78. A last traded


price is shown in gray 80.


The last traded price 82 is also highlighted on a dynamic price column 68. When there


has been an uptick in this price, this cell will be green. When there has been a downtick,


this cell will be red. If there has been no change, this cell will appear yellow.


The Buy and Sell columns display a total number of open orders at each particular price.


For example, a “W2” in the Buy column indicates that there are working orders with a


total quantity of two at the specified price.


Net Position and Total P/L on the ABV can be monitored by simply referring to the lower


right hand corner of the window.









On the ABV window 66, the price of any open Buy or Sell orders can be amended. To change the price of an order, a row selector that corresponds with the order to amend is selected buy left-clicking and holding down a left mouse button, dragging a cursor connected to the mouse up or down to a desired new price and releasing the mouse button. A white cursor arrow appears to indicate a change in price. The price amended will be submitted as soon as the mouse is released. If there multiple orders at the same price (and on the same side), all of the orders will be amended to the new price when dragging the concatenated order. The user can cancel a signal order at a price where multiple orders exist. They can also modify a single order at a price where multiple orders exist. They do this by selecting the individual order and dragging and dropping.


Another feature of the ABV window 66 is that a desired position on the dynamically displayed Price column 68 can be moved. If it is desired to scroll up or down on a market price on the dynamically displayed Price column 68, the dynamically displayed Price column 66 is hovered over with a mouse. A yellow cursor arrow will appear, pointing up if the mouse cursor is in the top half of the dynamic price column 68, or down, if the mouse cursor is in the bottom half of the dynamic Price column 68. Clicking on the cursor arrow will scroll the grid in the direction that the arrow points.


The ABV window 66 provides a dynamic Price column 68 centered upon the lasted traded price that continuously changes with fluctuations in the last traded price. To enter an order, a mouse cursor is hovered anywhere in the ABV window 66. This mouse hover puts a user in the “order entry mode.” In the order entry mode a trade near last traded price can be entered or prices on the dynamic price column can be manually adjusted away from the last traded price. To scroll up or down the market prices on the dynamic Price column 68 to enter a trade, the mouse cursor is hovered over the dynamic Price column 68. A large yellow arrow will appear, pointing up if the mouse cursor is in the top half of the dynamic price column, or down, the mouse cursor is in the bottom half of the dynamic price column. Clicking on the large yellow arrow will scroll the prices in the dynamic price column in the direction that the large arrow points so a trade can be entered away from a current market price.


If the dynamic Price column 68 is scrolled up or down and the last traded price is not centered on your ABV, the dynamic price column will start to scroll until the last traded price is again centered in the ABV window 66. In addition, if there is no further activity from a mouse for a period of time the dynamic Price column 68 will also start to scroll. As a visual indication, just before the dynamic price column begins to scroll, the mouse cursor will turn yellow and start to flash. This is a warning that the ABV window is about to begin re-centering around the last traded price. If, at any time, the mouse cursor is moved out of the ABV window, you leave the order entry mode and the ABV will automatically re-center the dynamic price column on the last traded price the next time the market price changes.


Stop and limit orders can also be entered on the ABV window 66 with just a click of a mouse. Before entering limit or stop orders an account is chosen and a quantity is entered. If a user has access to multiple accounts, the user can select the desired account by using the Account drop down menu. The user can input a number of lots to trade by typing the number in, by using the + or − buttons, or by using a keypad. A default quantity can be set via the Settings window. After selecting an account and quantity, limit and stop orders can be placed.


To enter a Buy Limit order, the mouse is clicked in the Bid column next to the Price to enter the order for. A limit order to buy will be entered at that price for the quantity specified, and a new working order will be reflected in the Buy column. Likewise, to enter a Sell Limit order, the mouse is clicked in the Ask column next to the Price to enter the order for.


To enter a Buy Stop order, the mouse is right-clicked in the Bid column next to the Price to enter the order for. A stop order to buy will be entered at that price for the quantity specified, and a new order will be reflected in the Buy column. Similarly, to enter a Sell Stop order, the mouse is right-clicked in the Ask column next to the Price that you want to enter the order for.


In addition to Limit and Stop orders, Market orders can be executed on the ABV window 66 using the Market Buy and Market Sell buttons. The ABV window can also be set up so that a Bracket or Trailing Stop order will automatically be created any time an order entered via the ABV is filled. The Bracket and Trailing Stop parameters will default to the values set up on the Settings window. To link a Bracket or Trailing Stop order to all orders entered via the ABV, choose Bracket or TStop from the Link To drop down box. A small window pops up with the default parameters for a bracket. The bracket levels can be changed by typing in a desired number, or using the “+” and “−” buttons. A limit order will be the profit order type, and for a loss order type, either choose a stop or a trailing stop can be selected.


For example, if a stop order is chosen, as soon as the order was filled, two new orders were entered. A limit order was created at a price that is five ticks above the market order's price and a stop order was created at a price that is three ticks below the market order's price Both orders have the same quantity that the market order had. Because these orders were entered as part of a bracket, when one of these orders is filled, the other will automatically be cancelled. Likewise, TStop is chosen from the Link To drop down box, a small window will appear that allows you to view and change trailing stop parameters. Like the bracket, a trailing stop will be entered once an order entered via the ABV window 66 is filled.


The ABV also allows cancellation of some or all of working orders as well. To cancel a particular order, the mouse cursor is placed over that order in the Buy or Sell column, whichever applies, and a yellow X appears over the working order. A mouse click on the yellow X will cancel that particular order. If multiple orders are entered at the same price (and on the same side), they will all be cancelled.


Order Ticket Window


FIG. 13 is a block diagram of screen shot of an exemplary Order Ticket window 84 produced by application 30 and displayed on GUI 32. This window 84 allows the user to create and enter all types of orders supported by the application and the APIs used. This window 84 is accessible via all windows except for Login, Settings, Client Messaging and Reports windows. Multiple order tickets can be launched and multiple windows 84 will be created. The Order Ticket window 84 is a member of a Desktop Layout. Order types, including Synthetic order types can be entered from this window.


In one embodiment, the Order Ticket window 84 displays, but is not limited to, an account identifier, an instrument or contract identifier, an order type, a limit price, if any, a stop limit price if any, a side identifier, a quantity identifier, an exchange identifier a current bid, ask, and last traded price, a current bid, ask or last traded quantity and a buy or sell identifier. However, the present invention is not limited to displaying these items and more, fewer or other items can be displayed in the Order Ticket window 84 to practice the invention.


If necessary, the Order Ticket window 84 will change or launch supporting windows to accommodate more complex order types. In one embodiment, the Order Ticket window 84 displays, but is not limited to, an account identifier, an instrument or contract identifier, an order type, a limit price, if any, a stop limit price if any, a side identifier, a quantity identifier, an exchange identifier a current bid, ask, and last traded price, a current bid, ask or last traded quantity and a buy or sell graphical button. However, the present invention is not limited to this embodiment and other embodiments can be used to practice the invention.


The user can select the account that the order applies to. The user can change the side of the order. The ticket background color depends upon the side chosen. For example, the background is set to blue for buy orders and set to red for sell orders. The following market data is displayed, but is not limited to, on this window 84 for the selected instrument: bid price, bid size, ask price, ask size, and last traded price.


This window 84 also does follow the standard window rules laid out in the Standard Window. The window can also be resized. The user can select to have the order ticket always on top. The default for this functionality is determined in the Settings Window. The Order Ticket window 84 is member of a Desktop Layout window. The Order Ticket window 84 settings are saved when it is a member of a Desktop Layout.


This window 84 is comprised of all the fields necessary to enter an order. The field defaults are set in the Settings window 48, but this window 84 may display different defaults depending on where it was launched from (for example, if it was launched from a specific fill or position).


Table 10 illustrate a list of the fields that are used to create a standard order. Synthetic orders also created directly from this window 84. In another embodiment, a separate window may be launched, or there may be some other method of accessing synthetic order entry. However, the present invention is not limited to this order information and more, fewer or other types of order information can be used to practice the invention.









TABLE 10







Exchange


  The default value for this field is determined from the window where it was


  launched or in Settings.


Instrument


  This field is filtered to display valid instruments based on the exchange that is


  selected.


Contract Date


  This field is filtered to display valid contract dates based on the instrument that is


  selected.


Order Type


  This field is filtered to display valid order types based on the exchange that is


  selected.


Limit Price


  This field defaults to either the current bid, ask or last as determined by Settings


  and by the side.


  This price does not change once the order is open.


  This field is enabled only for stop, stop limit, MIT orders and the synthetic


  equivalents for those order types.


  The use is able to enter the price via keyboard entry or spinner,


Order Quantity


  The user is able to change the specified order quantity through a key-pad control.


  Each key-pad input increases the specified quantity by the amount displayed on


  the key (the key value).


  The user has ability to set the quantity back to zero.


  The user is able to select to have the specified quantity set to zero after order


  entry.


Secondary Price


  This field is enabled only for stop limit orders.


Good-Till-Date


  This field is enabled only for orders with TIF (Time in Force) of GTD.


  This field defaults to the current trade date.









Reports Window


FIG. 14 is a block diagram of screen shot of an exemplary Reports window 86 produced by application 30 displayed by GUI 32. The Reports window 86 allows the user to create and enter all types of orders supported by the application 30 and APIs used. This window is accessible via all windows except for Login, Settings, Client Messaging and Reports. Multiple order tickets can be launched. The order ticket can be a member of a Desktop Layout window.


In one embodiment, the Reports window 86 displays, but is not limited to, an account identifier, an order identifier, an instrument identifier, a side identifier, a quantity, a price, an order type, an average price, a state, a price2, file, number of fills and an open column. However, the present invention is not limited to displaying these items and more, fewer or other items can be displayed in the Reports window 68 to practice the invention.


Order types, including synthetic order types are summarized from this window 86. If necessary, the Order Ticket window 84 changes or launches supporting windows to accommodate more complex order types. The user can select the account that the order applies to. The user changes the side of the order. Ticket background color depends upon the side chosen. For example, the background is blue for buy orders ant he background is red for sell orders.


Table 11 illustrates a list of the fields used to create a standard order report. However, the present invention is not limited to this order information more, fewer or other types of order information can be used to practice the invention.









TABLE 11







Exchange


  The default value for this field is determined from the window where it was


  launched or in Settings.


Instrument


  This field is filtered to display valid instruments based on the exchange that is


  selected.


Contract Date


  This field is filtered to display valid contract dates based on the instrument that is


  selected.


Order Type


  This field is filtered to display valid order types based on the exchange that is


  selected.


Limit Price


  This field defaults to either the current bid, ask or last as determined by Settings


  and by the side.


  This price does not change once the order is open.


  This field is enabled only for stop, stop limit, MIT orders and the synthetic


  equivalents for those order types.


  The user is able to enter the price via keyboard entry or spinner.


Order Quantity


  The user is able to change the specified order quantity through a key-pad control.


  Each key-pad input increases the specified quantity by the amount displayed on


  the key (the key value).


  The user has ability to set the quantity back to zero.


  The user is able to select to have the specified quantity set to zero after order


  entry.


Secondary Price


  This field is enabled only for stop limit orders.


Good-Till-Date


  This field is enabled only for orders with TIF (Time in Force) of GTD.


  This field defaults to the current trade date.


  This window allows the user to view and print reports.


Screen Access


  This window is accessed via the Manager window. Multiple report windows


  cannot be launched. The report window is not a member of any Desktop Layout.


Functional Requirements


  No trading functionality is available from this window.


Fill Report


  The user is able to view and print a fill report by account for the current day.


  The data for this report is saved on the client.


Order History Report


  The user is able to view and print an order history report for the current day or for


  any range of time up to 30 days.


  History includes parked orders.


  The data for this report should is on the client machine 30.


Orders Entered Report


  The user is able to view a report showing orders entered that were filled for the


  current day or for any range of time up to 30 days.


  The data for this report is saved on the client.









Client Logs

This functionality allows the user to send error and audit logs. A log of application errors is maintained. Application error logs, created daily, are retained for ten trading days. The user does not have ability to view the application error log. Logs are stored on the client and are not be encrypted, but should not be easily accessible to the user. The user can send the application error log to another location from within the application 30.


An audit log is created. The audit log contains detailed order history, including all available times associated with the order. The log also contains fills associated with the order. The log contains messages pertaining to the application which indicate connection activities and statuses. Audit logs, created daily, are retained for ten trading days. The user does not have ability to view the audit log. Logs are stored on the application 30 and should not be encrypted, but should not be easily accessible to the user. The user can send the audit log to another location from within the network 18.


Specialized Order Functionality

The application 30 also provides specialized order functionality. This functionality is available to the user wherever orders can be entered. The user creates one-cancels-other (OCO) order pairs. An OCO order is one that allows the user to have two working orders in the market at once With the execution of one order the other is canceled. The user can construct an OCO pair across different instruments traded on a single electronic exchange. The user can construct an OCO pair across different instruments on two electronic trading exchanges. The user can construct an OCO pair combining orders of any order type that is supported by the exchange (or supported synthetic order types).


The user cancels OCO orders before exiting the application 30. If the user has any open OCO's upon logoff, the GUI 32 warns the user that the orders will be cancelled and allow the user to cancel the logoff if desired. By default, entering a quantity for the OCO enters that same quantity for both sides of the OCO.


A complete fill of one order cancels the other order. If there is a partial fill on one leg of the OCO, the other side of the OCO is reduced by the amount that was filled. This functionality will only occur if both legs of the OCO are entered with the same quantity. The user has the ability to turn off this functionality, so that the order quantities don't automatically decrement and the orders are canceled only when one order is completely filled. If the user enters different quantities, this functionality are automatically turned off and disabled.


The user can cancel individual orders of the pair, leaving the remaining order in the market. The user can cancel both orders in the pair simultaneously. The user can change the price for an individual order of the pair. The user can create a profit/loss bracket order pair. A Profit/Loss bracket is a specific case of an OCO order pair. This order pair consists of a limit order to establish a profit and a stop loss order to limit loss. The stop loss portion of the bracket should be able to be a “trailing stop.” The use is able to create a profit/loss bracket around an existing position. The user is able to create a profit/loss bracket around a fill. The use can create a profit/loss bracket around an order in the filled state.


The user can create trailing stop orders. A trailing stop is an order that tracks a price of the instrument and adjusts the stop trigger price in accordance with a predefined rule (i.e., stop trigger is changed when the market changes a certain number of ticks).


Trailing stop orders can be either of type stop or stop limit. For stop limit orders, the limit price will be changed such that it keeps the same differential from the stop trigger price. In order to set up the trailing stop rule, the user must enter: the number of ticks that the market must change before the stop trigger price should be adjusted. The number of ticks that the stop trigger price should be adjusted when an adjustment is warranted. A trailing stop order is purely synthetic.


The stop order should only be known to the client until it is actually triggered. At that time either a market order (in the case of an order type of stop) or a limit order (in the case of a stop limit order) will be entered into the market. A trailing stop only adjusts the stop trigger price in the profitable direction of the trade. A trailing stop order to sell does not adjust the stop trigger price to a value less than the initial trigger value. A trailing stop order to sell only increases the stop trigger price. A trailing stop order to sell only adjusts the stop trigger price when new high prices are traded in the instrument. This will prevent adjusting the stop trigger price if the instrument price retraces a profitable move but does not trigger the stop.


A trailing stop order to buy does not adjust the trigger price to a value greater than the initial trigger value. A trailing stop order to buy only decreases the stop price. A trailing stop order to buy must adjusts the trigger price when new low prices are traded in the instrument. This will prevent adjusting the stop trigger price if the instrument price retraces a profitable move but does not trigger the stop. Trailing stops are only valid while the user is logged into the application 30. Application 30 exit will have the effect of the trailing stop not being in the market. On application exit, if the user has trailing stops entered, the user will be warned that the stop will not be worked while the application is closed.


The user is to choose to save trailing stops. On application 30 launch, the user is advised of any saved trailing stops and given the opportunity to reenter them.


The user is able to create parked orders. A parked order is an order that is created by the user but not submitted to the market. The user is able to release a parked order. Releasing a parked order submits it to the market. The user can change a working order to a parked order. This sends a cancel to the exchange. On receipt of the cancel acknowledgement, the application 30 changes the order state to indicate that the order is parked. Parked orders are saved on application exit. Parked orders are restored on application 30 launch.


If-Then Strategies

The user can create an “If-Then Strategy.” With an If Then Strategy, an order is entered into the market. Upon receipt of a fill acknowledgement for the order, one or more other orders are automatically entered by the application 30 based on the If-Then strategy. Typically, the orders that are entered with If-Then Strategy will be orders to manage profit and loss expectations for the fill that was received on the original order. The user can create an If-Then strategy where on the receipt of the acknowledgement of an order fill, a profit/loss bracket is entered around the fill price for the filled quantity. The user can create an If-Then strategy where on the receipt of the acknowledgement of an order fill, a stop or stop limit order is entered at an offset from the fill price for the quantity of the fill. The user can create an If-Then strategy where on the receipt of the acknowledgement of an order fill, a trailing stop order is entered at an offset from the fill price for the quantity of the fill. The user can create an If-Then strategy where on the receipt of the acknowledgement of an order fill, a limit order is entered at an offset from the fill price for the quantity of the fill. The user can create an If-Then strategy where on the receipt of the acknowledgement of an order fill, an OCO order pair is entered.



FIG. 15 is a flow diagram illustrating a Method 88 for electronic trading. At Step 90, one or more sets of If-Then electronic trading strategy information is obtained on an aggregate book view window 66 on a application 30 on a target device to automatically execute one or more electronic trades on one or more electronic trading exchanges. At Step 92, one or more sets of electronic trading information are continuously received on the application 30 from one or more electronic trading exchanges 20, 22. At Step 94, the one or more sets of electronic trading information are displayed via application 30 on the ABV window 66. At Step 96, one or more electronic trades are automatically electronically executed via application 30 on an appropriate electronic trading exchange 20, 22 using the one or more sets of If-Then electronic trading strategies. At Step 98, results from any automatic execution of any electronic trade are formatted and displayed on the ABV window.


Traders, Brokers and Firms

A “commodity broker” is an electronic trading firm or individual who executes orders to buy or sell commodity contracts on behalf of clients and charges them a commission. A trading firm or individual who trades for his/her own account electronically via a commodity broker (or other broker) is called an “electronic trader.” Commodity contracts include futures, options, and similar financial derivatives. Clients who trade commodity contracts are either hedgers using the derivatives markets to manage risk, or speculators who are willing to assume that risk from hedgers in hopes of a profit.


Other types of brokers include Futures Commission Merchants (FCMs), Independent Introducing Brokers (IIBs), Guaranteed Introducing Brokers (GIBs), Foreign Introducing Brokers (FIBs), Commodity Trading Advisors (CTAs), Commodity Pool Operators (CPOs) Broker-Dealers (B/Ds) and other types of brokers.


In one embodiment, a new integrated trading system 37 is provided that operates on trading firm 24 level. This system 37 eliminates much of the overhead included in most back end trading systems known in the art that are also use for non-professional traders (e.g., PATS, TT, GL, etc.) and is closely integrated with GUI application 30. In one embodiment, integrated trading system 37 includes all functionality of application 30. In another embodiment, integrated trading system 37 include only selected ones of functional of application 30.


In one embodiment of the invention, the system 37 is a software application. However, the present invention is not limited to this embodiment and the application 37 can firmware, hardware or a combination thereof.


In one embodiment, the integrated trading system 37 comprises an integrated trading platform that allows a trader to setup a strategy to trade two or more distinct markets (e.g., cash and futures) which have a predefined relationship (e.g., one-to-one) and automatically execute both markets simultaneously. In one embodiment, the integrated trading platform includes a configurable slippage factor that is predefined by the trader and allows the trader to safely execute a 2nd leg, 3rd leg, of the trade if the initial trade for the futures misses. In another embodiment, the integrated trading system includes a one-to-one trade from either the cash side or the futures side first. In another embodiment, the integrated trading system includes a best cash market to trade from.


The integrated trading system 37 also includes duration functionality allows traders to enter in one-to-one strategies which are not in a one cash to ten futures ratio. It also allows traders to enter in one-to-one ratios such as one cash and twelve futures etc.


In another embodiment, the integrated trading system 37 also includes a graphical Profit and Loss (P&L) blotter provides risk monitoring at a trading firm, trading group, or trader level. The integrated trading system calculates P&L on a real-time basis with Mark to Market functionality. The integrated trading system 37 includes firm wide status messages that can be broadcast to all traders who are viewing a graphical blotter and it will illustrate actual P&L and not just intraday by including previous days total equity position.


The integrated trading system 37 also allows traders to receive futures and cash market data real-time into a spreadsheet (e.g., Excel, etc.) and allows traders to receive both cash and futures trades real-time into a spreadsheet.


The integrated trading system 37 also provides an electronic “black box” that allows a trader to enter a desired trading formula into the application 30, thereby allowing the application 30 to automatically execute electronic trades via one or more electronic trading exchanges. The black box allows automatic tracking and execution of both actual and synthetic trading entities.


The integrated trading system 37 also provides synthetic trading, spread trading and yield curve trading.


As is known in the art, a “synthetic trading entity” is a virtual trading entity equivalent to real trading entity and is created with two or more real trading entities.


There are many different types of real and synthetic spreads that are traded.


A “futures spread” includes a purchase of one futures delivery month contract against the sale of another futures delivery month contract of the same commodity; the purchase of one delivery month contract of one commodity against the sale of that same delivery month contract of a different commodity; or the purchase of one commodity contract in one market against the sale of the commodity contract in another market, to take advantage of a profit from a change in price relationships. The term spread is also used to refer to the difference between the price of a futures month contract and the price of another month contract of the same commodity.


An “intra-commodity” spread (e.g., a calendar spread) is long at least one futures contract and short at least one other futures contract. Both have the same underlying futures contract but they have different maturities.


An “inter-commodity” spread is a long-short position in futures contracts on different underlying futures contracts. Both typically have the same maturity. Spreads can also be constructed with futures contracts traded on different exchanges. Typically this is done using futures on the same underlying contract, either to earn arbitrage profits or, in the case of commodity or energy underlying contracts, to create an exposure to price spreads between two geographically separate delivery points.


A “different commodities spread” is a spread between two or more different commodities contracts of any type of any maturity and any type of position. (e.g., (Mini S&P)/(Mini NSDAQ), or (Mini S&P)/(Mini DJ), etc.).


A “crack spread” is a commodity contract—commodity product contract spread involving the purchase of a commodity and the sale of a product. For example, the purchase of crude oil futures contracts and the sale of gasoline and/or heating oil futures contracts.


Spread trading offers reduced risk compared to trading futures contracts outright. Long and short futures contracts comprise a spread that correlated, so they tend to hedge one another. For this reason, exchanges generally have less strict margin requirements for future contract spreads.


A “butterfly spread” for futures contracts includes a spread trade in which multiple futures contract months are traded simultaneously at a differential. The trade basically consists of two or futures spread transactions with either three or four different futures months at one or more differentials.


Spread trading is also used for options. An option spread trade is when a call option is bought at one strike price and another call option is sold against a position at a higher strike price. This is a called a “bull spread.” A “bear spread” includes buying a put option at one strike price and selling another put option at a lower strike price.


A “butterfly spread” for options includes selling two or more calls and buying two or more calls on the same or different markets and several expiration dates. One of the call options has a higher strike price and the other has a lower strike price than the other two call options. If the underlying stock price remains stable, the trader profits from the premium income collected on the options that are written.


A “vertical spread” for options includes a simultaneous purchase and sale of options of the same class and expiration date but different strike prices. A vertical spread for futures contracts includes a simultaneous purchase and sale of futures contracts with the same expiration date but different prices.


A “horizontal spread” includes the purchase and sale of put options and call options having the same strike price but different expiration dates. A horizontal spread for futures contracts includes the purchase and sale of futures for the same purchase price but different expiration dates.


A “ratio spread” applies to both puts and calls, involves buying or selling options at one strike price in greater number than those bought or sold at another strike price. “Back spreads” and “front spreads” are types of ratio spreads.


A “back spread” is a spread which more options are bought than sold. A back spread will be profitable if volatility in the market increases. A “front spread” is a spread in which more options are sold than bought. A front spread will increase in value if volatility in the market decreases.


The purpose of an option spread trade is two-fold. First, it bets on the direction that a trader thinks a certain stock will go. And second, it reduces a trader's cost of the trade to the difference between what is paid for the option and what profit is obtained from selling the second option. An option profit is the spread, or the difference between the two strike prices, minus a cost of the spread.


An “inter-exchange” spread is a difference in a price of same security, instrument or contract traded on different exchanges. For examples, the price of a stock for a computer of brand-X on the New York Stork Exchange and the Tokyo Stock exchanges.


Various types of spreads (e.g., vertical, horizontal, ratio, back, front, etc.) are also used to trade futures contracts, stocks, bonds and other financial instruments and financial contracts in addition to options.


As is known in the electronic trading arts, a “black box trading entity” includes, but is not limited to, trading strategies developed by one or more traders for futures contracts, options contracts, or other instruments for differed shipment or delivery or otherwise, or other contracts or financial or other instruments traded electronically. The black box trading entity may be created only for sell-side trades, only for buy-sides trades, both buy and sell trades, spreads, and other types of real or synthetic trades that can be executed electronically.


As is known in the electronic trading arts, a “yield curve” is a chart in which a yield level is plotted on one axis (e.g., a vertical axis, etc.), and the term to maturity of debt instruments or other similar instruments are plotted on another axis (e.g., a horizontal axis, etc.). In general, when yields are falling, a yield curve will steepen. When yields are rising, a yield curve will flatten.


In finance, a yield curve is a relationship between the cost of borrowing for a in a certain currency and the amount of time the money is being borrowed for. The yield of a debt instrument is an amount of money received per year by investing in that instrument. Investing for a period of time t gives a yield Y(t). This function Y is called the “yield curve.” The nomenclature “curve” is used rather than “yield function” because when plotted on a graph, the function is a curve. Yield curves are used by commodity and other financial instrument traders to seek trading opportunities. For commodities trading, market participants often sell short and buy long, or sell long and buy short using yield curves.


In one embodiment, yield curve electronic trading strategies are used with the electronic trading system described above. Yield curve trading permits electronic traders to price any commodity contract, financial instrument or security instrument off of any other security commodity contract, financial instrument or security instrument with a yield curve using a price, yield, or basis spread. The yield curve electronic trading strategies include electronic trading via multiple yield curves by asset class, curves off curve and curves on curve.


The integrated trading system 37 also allows traders to receive futures and cash market data real-time into a spreadsheet (e.g., Excel, etc.) or from a spreadsheet and allows traders to receive both cash and futures trades real-time into and from a spreadsheet.


In another embodiment, the integrated trading system 37 also allows for automatic management and balancing of delivery information for commodity futures contracts for which physical delivery of an associated commodity is occurring for a trading firm 24.


Automated Futures Contract Delivery Management and Balancing

Electronic trading exchanges 20, 22 that allow trading of commodity futures contracts include, for example, the Chicago Mercantile Exchange (CME), Chicago Board of Trade (CBOT), Commodities Exchange (COMEX), New York Mercantile Exchange (NYMEX), New York Board of Trade (NYBOT), Intercontinental Exchange (ICE), London International Financial and Futures Options Exchange (LIFFE), etc.


A “commodity futures contract” or “futures contract” gives a contract holder an obligation to make or take physical delivery of an associated commodity (e.g., corn, wheat, gold, etc.) under the terms of the contract. Both parties of a futures contract must fulfill the terms of contract on the settlement date. The seller delivers the underlying asset to the buyer. The buyer pays the seller for the underlying asset. If the contract is a cash-settled futures contract, if delivery is not physically take, then cash is transferred from the futures trader who sustained a loss to the one who made a profit.


To exit the futures contract prior to the settlement date, the holder of a futures position has to offset his/her position by either selling a long position or buying back (covering) a short position, effectively “closing out” the futures position and its contract obligations.


Commodity futures contracts can be settled by making or taking actual physical delivery of the underlying commodity. The underlying commodities include physical commodities (e.g., corn, wheat, soybeans, gold, etc.) and financial commodities (e.g., bonds, etc.) However, certain currency futures are excepted from this rule.


Generally physically delivery of commodities includes taking delivery of basic resources such as crude oil, etc., agricultural products such as sugar, coffee beans, soybeans, rice, wheat, corn, soybeans, etc. and metals such aluminum, gold, silver, etc.


An actual physical commodity is delivered at the completion of a contract, as opposed to a futures contract on that physical commodity. A futures contract will specify the number of units of the cash commodity that must be delivered, and also the specific delivery terms and features of the commodity. For example, a November soybean futures contract that expires in November and means that someone will be physically delivering 5,000 bushels of soybeans and someone will be taking physical delivery of the 5,000 bushels soybeans at a grain elevator in a pre-determined city and state.


Physical commodities are often delivered due to hedging by farmers, food processors, consumer product manufacturers, energy providers, airlines, etc. A “hedge” is a position established in one market in an attempt to offset exposure to price fluctuations in some opposite position in another market with the goal of minimizing one's exposure to unwanted risk.


A typical hedger is a commercial farmer. For example, market values of soybean fluctuate constantly as supply and demand for them vary, with occasional large moves in either direction. Based on current prices, forecast levels, types of soybeans being grown and quality of soybeans being grown at harvest time, the farmer might decide that planting soybeans is a good idea this year. Once the farmer plants the soybeans, the farmer is committed to the soybean crop for an entire growing season. If the actual price of soybeans rises between planting and harvest (e.g., because of a draught in growing areas, etc.), the farmer could make a lot of money, but if the actual price drops by harvest time (e.g., exceptional weather producing a record soybean crop, etc.), the farmer could lose a lot of money. Thus, the farmer may decide to hedge soybeans via futures contracts.


If the farmer sells a number of soybean futures contracts equivalent to a crop size at planting time, the farmer effectively locks in the price of soybeans at that time. The futures contract is an agreement to physically deliver a certain number of bushels of soybeans on a certain date in the future for a certain fixed price. The farmer has hedged any exposure to changes in soybean prices. The farmer no longer cares whether current soybean prices rise or fall, because the farmer is guaranteed a price by the soybean futures contract. The farmer no longer needs to worry about being ruined by a low soybean price at harvest time, but he also gives up the chance at making extra money from a high soybean price at harvest time when the soybeans are physically delivered.


The new automated delivery balancing process occurs as a result of an electronic trading exchange 20, 22 (e.g., CME, CBOT, etc.) providing trading of commodity futures contracts (notifying a trading firm 24 of any futures contracts for which physical delivery of the underlying commodity is occurring. The trading firm 24 is a trading firm that provides access to electronic trading of commodity futures contracts.


A broker typically has plural electronic trading accounts with long positions, called “account longs” or “longs,” in futures contracts that are in their delivery period. The electronic trading exchange 20, 22 allocates receipts for actual delivery of the futures contract's underlying physical commodity during the delivery period. These physical allocations are called “invoice receipts” or “receipts.” The delivery balancing process automatically and dynamically therefore allocates electronic “invoice receipts” for “account longs.” The electronic trading exchange 20, 22 allocates physical delivery on the trading firm 24 level. It is then the trading firm's 24 responsibility to assure delivery allocation on an electronic account level within a trading firm 24.


Delivery allocation within a trading firm 24 is performed with a new automated method that provides a fair distribution among all trading accounts for which actual delivery of a commodity is occurring.



FIGS. 16A and 16B are a flow diagram illustrating a Method 100 for automated commodity futures contract delivery management and balancing.


In FIG. 16A at Step 102, on an application in a computer readable medium on a network device with one or more processors periodically and automatically receives plural electronic files from one or more electronic trading exchanges and open outcry trading exchanges including plural electronic delivery invoice receipts for plural futures contracts for one or more trading parties for which physical delivery of an associated commodity is occurring. At Step 104, The plural electronic delivery invoice receipts are dynamically and automatically allocated in a priority order using a pre-determined delivery priority scheme for each of the one or more trading parties using electronic information the plural futures contracts from the received plural electronic files.


In FIG. 16B, at Step 106, for each of the one or more trading parties a single electronic delivery invoice is dynamically and automatically created including the electronic delivery invoice receipts listed in the priority order. At Step 108, the single electronic delivery receipt and one or more electronic reports are dynamically and automatically displayed in one or more graphical windows on a graphical user interface on the application on the network device using electronic information from the created single electronic delivery invoice. At Step 110, the single electronic invoice provides an integrated viewpoint that aggregates commodity futures contract delivery management and balancing across all trading accounts on all commodity futures electronic trading exchanges and all commodity futures open outcry trading exchanges for the one or more trading parties.


The single electronic invoice provides an “integrated viewpoint” that aggregates commodity futures contract delivery management and balancing across all trading accounts on all commodity futures electronic trading exchanges and all commodity futures open outcry trading exchanges for the one or more trading parties (e.g., an individual electronic trader, broker, trading firm, etc.).


In another embodiment, single electronic invoice provides an “integrated viewpoint” that aggregates commodity futures contract delivery management and balancing across all trading accounts on all commodity futures electronic trading exchanges only or all commodity futures open outcry trading exchanges only for the one or more trading parties (e.g., electronic trader, broker, trading firm, etc.).


Method 100 is illustrated with one exemplary embodiment. However the present invention is not limited to such an embodiment and other embodiments can also be used to practice the invention.


In such an exemplary embodiment in FIG. 16A at Step 102, plural electronic files from one or more electronic trading exchanges 20, 24 and/or one or more open outcry trading exchanges including plural electronic delivery invoice receipts for plural futures contracts for one or more trading parties (e.g., 24, etc.) for which physical delivery of an associated commodity is occurring are received periodically and automatically on an application 30, 37 in a computer readable medium on a server network device 24 with one or more processors. In another embodiment, Step 102 is practiced on another application 30, 37 on a target network device 12, 14, 16 with one or more processors.


In one specific exemplary embodiment, the plural electronic files include at least three types of input files. The three types of input files are received in comma separated values (CSV) format. However, the present invention is not limited to such file types and number of files or file formats and other file types, number of files and file formats can be used to practice the invention.


In such a specific exemplary embodiment, the first type of input files includes delivery invoice receipt files from an electronic trading exchange 20, 22 (e.g., CME, CBOT, etc.) A second type of input file includes delivery invoice receipt files from trading firms 24, (e.g., Rosenthal Collins Group, etc.). A third type includes paper invoice scanned in, and/or converted into input files from paper invoices from both electronic trading exchanges and open outcry trading exchanges. The first type of input file and/or the second type and/or the third of input file may require pre-processing before use. Such pre-processing has typically been done manually. However, in one embodiment, the present invention automates the pre-processing process.


The types of received plural electronic files include plural individual delivery receipts that each have unique global receipt numbers and plural individual electronic delivery invoices that also have unique global invoice numbers that are used for unique global identification.


In one specific exemplary embodiment, delivery invoice receipts are received from a commodity futures trading exchange (e.g., CME 20) in a single file of the first type for all scheduled deliveries. In one very specific exemplary embodiment, the file is called a “DLV402T file.” In one embodiment, this file from the CME is automatically pre-processed at Step 102 since the CME exports delivery information for in the name of individual traders and/or other trading firms (e.g., called “counter firms”) and/or other types of brokers (e.g., IB, GIB, FIB, etc.) that may be different from name of a trading firm 24 that actually services electronic trading clients. For example, a trading firm 24 may use a live trader to trade in an open outcry trading pit or use plural electronic trading counter firms or other types of brokers that actually provide electronic interfaces to the CME and/or take care of daily trade reconciliations for the trading firm 24.


In one specific exemplary embodiment, the pre-processing includes pre-processing the plural electronic files by dynamically and automatically mapping electronic delivery invoice receipts with trading entity names associated with, but not including a selected trading firm, to the name selected trading firm. In another embodiment, the pre-processing includes other types of mappings. In another embodiment, the pre-processing includes sorting by type of commodity, by delivery date, by delivery location, delivery amount, etc.


In such a specific exemplary embodiment, delivery invoice receipts are also received from various trading firms in plural files of the second type of all scheduled deliveries. For example, all scheduled deliveries are obtained in a second file of the second type from a local electronic trading system (e.g., 30, 37, etc.) for the trading firm 24 (e.g., PR-22 file, etc.) all other scheduled deliveries are obtained in third, fourth, etc. files of the second type from other trading firms the trading firm 24 may be associated with that provides electronic trading services for the trading firm 24.


At Step 104, the plural electronic delivery invoice receipts are dynamically and automatically allocated in a priority order using a pre-determined delivery priority scheme for each of the one or more trading parties 24 using electronic information the plural futures contracts from the received plural electronic files. The priority order is initially based on an ordering of trade dates, wherein earliest trade dates are at a top of the priority order. If plural electronic delivery invoice receipts have a same trade date, the initial priority order is adjusted using a pre-determined calculation of delivery allocation percentages to create a final priority order. However, the present invention is not limited to this priority order and other priority orders can also be used to practice the invention.


In one embodiment, the allocation process occurs once daily in a delivery period. In another embodiment, the allocation process occurs more than once daily. In another embodiment, the allocation process occurs weekly. In one embodiment, delivery information does not persist between daily allocations. All information is standalone within a daily allocation. In another embodiment, delivery information does persist between daily allocations.


In one embodiment at Step 104, delivery allocations are performed on individual electronic delivery invoice receipts basis with no concern for which future contract an electronic delivery receipt is part of because a priority ordering is used. In another embodiment, delivery allocations are performed on individual electronic delivery invoice receipts basis with concern for future contract an electronic delivery receipt is part of. For example, all corn contract may be processed together to avoid overwhelming a food processors accepting the corn on any given delivery date.


In one embodiment, Table 12 illustrates exemplary steps used to perform Step 104. However, the present invention is not limited to this embodiment and other embodiments can also be used to practice Step 104.










TABLE 12







1.
Determine all eligible account longs (i.e., futures contracts for which delivery of the



underlying commodity is occurring). Eligible accounts are those that match an electronic



delivery receipt's firm/origin and have not been fully allocated for delivery within this



delivery allocation.


2.
Prioritize all eligible account longs by “trade date,” which is an original trade date a



trading position was entered into (i.e., first date traded). Earlier dates get first priority.


3.
If a single eligible account long position has an earliest trade date then that account long



receives a first delivery receipt allocation in the priority order. If multiple eligible account



longs share a same earliest trade date then the electronic delivery invoice receipts are



allocated for delivery uses another pre-determined method for adjusting the initial priority



order that balances delivery allocation by a pre-determined calculation of delivery



allocation percentages (e.g., Equations (1)-(4), etc.).









In the case where multiple eligible account longs share an earliest trade date, a pre-determined priority method is used to pick an account long to allocate a first delivery to.


In one embodiment, the pre-determined priority method includes the following Equations (1)-(4). All eligible account longs on a shared trade date are put into a “virtual basket” via total account long quantity (TALQ) using Equation (1):






T
ALQ=((all account longs(1 . . . N)in virtual basket)=(TALQ(N)+1))  (1)


An allocation amongst all account longs in the virtual basket is determined as an ideal percentage (PI) using Equation (2):






P
I=((total allocated electronic delivery invoice receipts+one electronic delivery invoice receipt actually being allocated)/(TALQ))  (2)


A number of allocated delivery receipts within virtual the basket is summed and one is added to an account for a delivery receipt being allocated.


For each account long in the virtual basket a potential percentage (PP) is determined using Equation (3):






P
p=(percentage of an account long that would be allocated if the account long for a current electronic delivery invoice receipt was actually allocated)  (3)


Each account long (1 . . . N) in the virtual basket is evaluated for a difference using Equation (4):






D
N=(PP−PI)  (4)


The account long N with the smallest difference DN is allocated for first delivery in the priority order.


The effect of using the priority method described by Equations (1)-(4) is to create a list of distribution delivery invoice receipts on the one single electronic invoice receipt for a trading firm where a delivery percentage allocated for each account long is as equal as possible within the virtual basket for a given delivery date. These equations also cause larger long positions to be given preferred delivery allocation before smaller long positions while keeping relative delivery percentages balanced.


In another embodiment, the priority method further includes using a receiver's ability to accept delivery quantities. In another embodiment, the priority method further includes using transportation costs to the receiver's location.


However, the present invention is not limited to the methods described and/or Equations (1)-(4) and other methods and other equations can be used to practice the invention at Step 104.


In FIG. 16B at Step 106, for each of the one or more trading parties a single electronic delivery invoice is dynamically and automatically created including the electronic delivery invoice receipts listed in the priority order. In one exemplary embodiment, the created single electronic invoice also includes its own globally unique electronic invoice identification number that provide a unique identification across all electronic trading exchanges 20, 22 and all trading parties 24, etc.


In one exemplary embodiment, the created single electronic invoice also includes a listing of plural first trade dates for the priority order of plural futures contracts for which physical delivery of an associated commodity is occurring. In another embodiment, the created single electronic invoice does not include the first trade dates.


At Step 108, the single electronic delivery receipt and one or more electronic reports are dynamically and automatically displayed in one or more graphical windows 50, 56, 58, 60, 66, 84, 86, etc. on a graphical user interface 32 on the application 30, 37 on the network device 24, 12, 14, 16 using electronic information from the created single electronic delivery receipt.


In another embodiment at Step 108, the single electronic delivery receipt is printed out on paper. In another embodiment, at Step 108, the single electronic delivery receipt is displayed in a dedicated delivery receipt window 124 via application 30, 37 on GUI 32 (See FIG. 19).



FIG. 17 is a block diagram of screen shot 111 of an exemplary single electronic invoice 112.


If any delivery invoice receipts were not allocated to an account long during Method 100 an error message is included in the one or more reports and this indicates a problem with the input file information. In one exemplary embodiment, two different reports types are available that show similar information from two different perspectives. Both reports allow exporting to spreadsheets (e.g., Microsoft Excel, etc.) in CSV format.


The first report type of report shows all electronic delivery invoice receipts listed in the priority order for delivery allocation on a selected delivery date and what account long they were allocated to. This report is filterable by trading office and trading account to allow the balancing for a specific customer and sending the report to the customer.



FIG. 18 is a block diagram of screen shot 114 of an exemplary first report type 116.


The second type of report shows all account longs in an allocation delivery for a given delivery date and the number of electronic delivery receipt invoices allocated (or not allocated) to them in the priority order.



FIG. 19 is a block diagram of a screen shot 118 of an exemplary second report type 120.



FIG. 20 is a block diagram of a screen shot 122 of an exemplary dedicated Balanced Delivery Report window 124.


However, the present invention is not limited to the these type of reports and more, fewer or other types of reports can also be used to practice the invention.


Returning to FIG. 16B at Step 110, the single electronic invoice provides an integrated viewpoint that aggregates commodity futures contract delivery management and balancing across all trading accounts on all commodity futures electronic trading exchanges and all commodity futures open outcry trading exchanges for the one or more trading parties. (e.g., electronic trader, broker, trading firm, open outcry pit trader, etc.).


The present invention also provides dynamic automated commodity futures contract delivery balancing by providing an “integrated viewpoint.” The present invention is unique and could not be predicted because it provides unexpected results because the present invention aggregates commodity futures contract delivery management and balancing across all trading accounts on all commodity futures trading exchanges, both electronic and open outcry.


In one embodiment of the invention, Method 100 is executed via software application 30, 37 executing in a computer readable medium on a server network device 24 with one or more processors. In another embodiment of the invention, Method 100 is executed via another software application 30, 37 executing in a computer readable medium on a target network device 12, 14, 16 with one or more processors. However, the present invention is not limited to this embodiment and can be software, firmware, hardware or a combination thereof.


It should be understood that the architecture, programs, processes, methods and systems described herein are not related or limited to any particular type of computer or network system (hardware or software), unless indicated otherwise. Various types of general purpose or specialized computer systems may be used with or perform operations in accordance with the teachings described herein.


In view of the wide variety of embodiments to which the principles of the present invention can be applied, it should be understood that the illustrated embodiments are exemplary only, and should not be taken as limiting the scope of the present invention. For example, the steps of the flow diagrams may be taken in sequences other than those described, and more or fewer elements may be used in the block diagrams.


While various elements of the preferred embodiments have been described as being implemented in software, in other embodiments hardware or firmware implementations may alternatively be used, and vice-versa.


The claims should not be read as limited to the described order or elements unless stated to that effect. In addition, use of the term “means” in any claim is intended to invoke 35 U.S.C. §112, paragraph 6, and any claim without the word “means” is not so intended.


Therefore, all embodiments that come within the scope and spirit of the following claims and equivalents thereto are claimed as the invention.

Claims
  • 1. A method for automated commodity futures contract delivery management and balancing comprising: receiving periodically and automatically on an application on a network device with one or more processors a plurality of electronic files from one or more electronic trading exchanges or one or more open outcry trading exchanges including a plurality of electronic delivery invoice receipts for one or more trading parties for a plurality of futures contracts for which physical delivery of an associated commodity is occurring;dynamically and automatically allocating the plurality of electronic delivery invoice receipts in a priority order using a pre-determined delivery priority scheme for each of the one or more trading parties using information the plurality of futures contracts from the received plurality electronic files;dynamically and automatically creating for each of the one or more trading parties a single electronic delivery invoice including the electronic delivery invoice receipts listed in the priority order;dynamically and automatically displaying the single electronic delivery receipt and one or more electronic reports in one or more graphical windows on a graphical user interface on the application on the network device using electronic information from the single electronic delivery invoice; andproviding via the single electronic invoice an integrated viewpoint that aggregates commodity futures contract delivery management and balancing across all trading accounts on all commodity futures electronic trading exchanges and all commodity futures open outcry trading exchanges for the one or more trading parties.
  • 2. A computer readable medium having stored therein instructions for causing one or more processors to execute the steps of the method of claim 1.
  • 3. The method of claim 1 wherein the plurality of electronic files include electronic files in a comma separated value (CSV) format.
  • 4. The method of claim 1 wherein the plurality of electronic files include electronic files from one or more electronic commodity futures trading exchanges and one or more trading parties that allows traders to electronically trade electronic trading of commodity futures contracts.
  • 5. The method claim 1 wherein the receiving step further includes: pre-processing the plurality of electronic files by dynamically and automatically mapping electronic delivery invoice receipts with trading entity names associated with but not including a selected trading parties to the selected trading party.
  • 6. The method of claim 1 wherein the pre-determined priority scheme includes: creating an initial priority order using an original trade date a futures contract was first entered into,wherein the initial priority order is initially based on an ordering of trade dates, wherein earliest trade dates are at a top of the initial priority order; anddetermining whether any of the plurality of futures contracts have a same trade date, and if so,adjusting the initial priority order to create a final priority order using a pre-determined calculation of delivery allocation percentages, where a delivery percentage allocated for each futures contract is as equal as possible for all futures contracts for which physical delivery of an associated commodity is occurring on a same delivery date.
  • 7. The method of claim 6 wherein the pre-determined calculation includes: calculating DN=(PP−PI), wherein, N is a total number of futures contracts being considered,DN is a smallest difference used to allocate a first delivery position in the final priority order,Pp is potential percentage=(a selected futures contract that would be allocated if the selected futures contract for a current electronic delivery invoice receipt was actually allocated), andPI is an ideal percentage=(allocated electronic delivery invoice receipts+one electronic delivery invoice receipt actually being allocated on a shared trade date)/(all eligible futures contracts on the shared trade date+one).
  • 8. The method of claim 1 wherein the single electronic invoice includes electronic delivery invoice receipts for the trading party listed in the priority order and wherein the single electronic invoice includes a globally unique electronic invoice identification number that is unique across the one or more electronic trading exchanges and the one or more trading parties.
  • 9. The method of claim 1 further comprising: providing via the single electronic invoice an integrated viewpoint that aggregates commodity futures contract delivery management and balancing across all trading accounts on only all commodity futures electronic trading exchanges or only all commodity futures open outcry trading exchanges for a trading party.
  • 10. The method of claim 1 wherein the displaying step includes displaying the single electronic invoice and one or more reports on a graphical Contracts window, Reports window, Order Ticket, window, Order window, Fills window, Position window an Aggregated Book View-Ask Bid Volume (ABV) window or a Balanced Delivery Report window.
  • 11. The method of claim 1 wherein the one or more electronic reports include a first report type of report showing all electronic delivery invoice receipts listed in the priority order for delivery allocation on a selected delivery date and a second type of report showing all futures contracts in a delivery allocation for a given delivery date and the number of electronic delivery receipt invoices allocated to the futures contracts in the priority order.
  • 12. A system for automated delivery balancing for electronic trading, comprising in combination: means for receiving periodically and automatically on an application in a computer readable medium on a network device with one or more processors a plurality of electronic files from one or more electronic trading exchanges or one or more open outcry trading exchanges including a plurality of electronic delivery invoice receipts for one or more trading parties for a plurality of futures contracts for which physical delivery of an associated commodity is occurring;means for dynamically and automatically allocating the plurality of electronic delivery invoice receipts in a priority order using a pre-determined delivery priority scheme for each of the one or more trading parties using information the plurality of futures contracts from the received plurality electronic files;means for dynamically and automatically creating for each of the one or more trading parties a single electronic delivery invoice including the electronic delivery invoice receipts listed in the priority order;means for dynamically and automatically displaying the single electronic delivery receipt and one or more electronic reports in one or more graphical windows on a graphical user interface on the application on the network device using electronic information from the single electronic delivery invoice; andmeans for providing an integrated viewpoint via the single electronic delivery receipt that aggregates commodity futures contract delivery management and balancing across all trading accounts on all commodity futures electronic trading exchanges and all commodity futures open outcry trading exchanges for the one or more trading parties.
  • 13. The system of claim 12 further comprising: means for providing an integrated viewpoint via the single electronic delivery receipt that aggregates commodity futures contract delivery management and balancing across all trading accounts on all commodity futures electronic trading exchanges only or all commodity futures open outcry trading exchanges only for the one or more trading parties.
  • 14. The system of claim 12 wherein the plurality of electronic files include electronic files in a comma separated value (CSV) format.
  • 15. The system of claim 12 wherein the plurality of electronic files include electronic files from one or more electronic commodity futures trading exchanges and one or more trading parties that allows traders to electronically trade electronic trading of commodity futures contracts.
  • 16. The system of claim 12 wherein the receiving means further includes: pre-processing means for pre-processing the plurality of electronic files by dynamically and automatically mapping electronic delivery invoice receipts with trading entity names associated with but not including a selected trading partie to the selected trading partie.
  • 17. The system of claim 12 wherein the pre-determined priority scheme includes: creating an initial priority order using an original trade date a futures contract was first entered into,wherein the initial priority order is initially based on an ordering of trade dates, wherein earliest trade dates are at a top of the initial priority order; anddetermining whether any of the plurality of futures contracts have a same trade date, and if so,adjusting the initial priority order to create a final priority order using a pre-determined calculation of delivery allocation percentages, where a delivery percentage allocated for each futures contract is as equal as possible for all futures contracts for which physical delivery of an associated commodity is occurring on a same delivery date.
  • 18. The system of claim 12 wherein the single electronic invoice includes electronic delivery invoice receipts for the trading party listed in the priority order and wherein the single electronic invoice includes a globally unique electronic invoice identification number that is unique across the one or more electronic trading exchanges and the one or more trading parties.
  • 19. The system of claim 12 wherein the displaying step includes displaying the single electronic invoice and one or more reports on a graphical Contracts window, Reports window, Order Ticket, window, Order window, Fills window, Position window, an Aggregated Book View-Ask Bid Volume (ABV) window or a Balanced Delivery Report window.
  • 20. The system of claim 12 wherein the one or more electronic reports include a first report type of report showing all electronic delivery invoice receipts listed in the priority order for delivery allocation on a selected delivery date and a second type of report showing all futures contracts in a delivery allocation for a given delivery date and the number of electronic delivery receipt invoices allocated to the futures contracts in the priority order.
Priority Claims (1)
Number Date Country Kind
PCT/US05/24590 Jul 2005 US national
CROSS REFERENCES TO RELATED APPLICATIONS

This application is a Continuation-In-Part (CIP) of U.S. patent application Ser. No. 11/180,330 filed Jul. 12, 2005, that claims priority to U.S. Provisional Patent Application 60/587,243, filed Jul. 12, 2004, the contents of all of which are incorporated by reference.

Provisional Applications (1)
Number Date Country
60587243 Jul 2004 US
Continuation in Parts (1)
Number Date Country
Parent 11180330 Jul 2005 US
Child 12645545 US