Patent Application
20080178140
1. Field of the Invention
The present invention relates to a method for correcting a photomask pattern. More particularly, the present invention relates to a hybrid method for correcting a photomask pattern.
2. Description of Related Art
Nowadays, with the development of the integrated circuit (IC), element downsizing and integration is an essential trend, and is also an important topic for each industry to actively develop. In the whole semiconductor process, lithography may be referred to as one of the most important steps. Therefore, the fidelity of transferring the photomask pattern to the wafer is quite important. If the transferring of the pattern is not correct, the tolerance of the critical dimension (CD) on the chip may be affected, and the resolution of the exposure may be reduced.
The integration is gradually improved and the size of the element is gradually reduced, the distance between the elements must be reduced, therefore, in the lithography process, deviations in the transferring of the pattern may be generated, i.e. the so-called optical proximity effect (OPE). OPE may occur when the light beam is projected on the chip through the pattern on the photomask, in one aspect, the light beam is expanded due to scattering of the light beam, and in another aspect, the light beam may pass through the photoresist layer of the chip surface and may get reflected back by the semiconductive substrate of the chip.
The optical proximity correction (OPC) is directed to eliminate the CD deviation because of the proximity effect. In the conventional OPC method, the line width of the original pattern which intends to be exposed on the semiconductor substrate of the chip is reduced or increased so as to make the line widths of the patterns exposed from the dense pattern region and the isolation pattern region maintain the same.
In the conventional method, usually, the correction method is determined according to the pitch of the layout pattern, and a same layout region only uses an OPC to correct. Therefore, the model-based OPC is not suitable for correcting the isolation pattern region when the layout pattern is an asymmetric layout; the model-based OPC is not suitable for correcting the isolation pattern region. As for the rule-based OPC, the correction result is close to the original pattern and is not suitable for dense pattern region.
Accordingly, the present invention is directed to a method for correcting a photomask pattern, which uses a hybrid OPC and includes a modified-rule OPE correction table. The method of the present invention is capable of quickly and accurately correcting the layout pattern if special, layout pattern occurs.
The present invention is also directed to a method for correcting a photomask pattern including using a model-based OPC; and using a rule-based OPC when the correction result using the model-based OPC is not desired. Thus, the fidelity correction may be effectively accelerated.
The present invention is also directed to providing a method for correcting a photomask pattern including using a rule-based OPC first; and using a model-based OPC when the correction result using the rule-based OPC is not desired. Thus, the fidelity correction may be effectively accelerated.
According to an embodiment of the present invention, the method for correcting a photomask pattern includes receiving a layout corresponding to a layout pattern; selecting an OPC according to the layout condition of the layout pattern to correct the layout pattern; generating a first correction pattern if a first OPC is selected to correct the layout pattern and comparing the first correction pattern with a predetermined specification, wherein if the first correction pattern does not conform to the predetermined specification, a second OPC is used to correct the layout pattern to generate a second correction pattern.
According to an embodiment of the present invention, the layout pattern may be corrected according to a modified-rule optical proximity correction table if the second correction pattern does not conform to the predetermined specification, and wherein the modified-rule optical proximity correction table comprises a plurality of groups of correction rules for special layout conditions.
According to an embodiment of the present invention, if the first OPC is a model-based OPC, the second OPC is a rule-based OPC.
According to an embodiment of the present invention, if the second OPC is a model-based OPC, the first OPC is a rule-based OPC.
According to an embodiment of the present invention, the step of selecting an OPC according to the layout condition of the layout pattern to correct the layout pattern comprises using a hybrid optical correction method to select the first OPC or the second OPC.
The present invention also provides another method for correcting a photomask pattern, which comprises receiving a layout corresponding to a layout pattern first; using a model-based OPC to correct the layout pattern and generating a first correction pattern according to the layout condition of the layout pattern; comparing the first correction pattern with a predetermined specification, and using a rule-based OPC to generate a second correction pattern when the first correction pattern does not conform to the predetermined specification.
According to an embodiment of the present invention, if the second correction pattern also does not conform to the predetermined specification, the layout pattern is corrected according to the modified-rule optical proximity correction table, wherein the modified-rule optical proximity correction table comprises a plurality of groups of correcting rules for special layout condition.
The present invention provides another method for correcting a photomask pattern, which comprises receiving a layout corresponding to a layout pattern first; using a rule-based OPC to correct the layout pattern and generating a second correction pattern according to the layout condition of the layout pattern; comparing the second correction pattern with a predetermined specification, and using a model-based OPC to correct the layout pattern to generate a first correction pattern when the second correction pattern does not conform to the predetermined specification.
According to an embodiment of the present invention, wherein if the first correction pattern does not conform to the predetermined specification, the layout pattern is corrected according to the modified-rule optical proximity correction table. The modified-rule optical proximity correction table has a plurality of groups of correcting rules for special layout condition.
According to an embodiment of the present invention, the step of receiving the layout comprises performing a Boolean logic operation on the layout pattern to convert the format of the layout pattern.
According to an embodiment of the present invention, the layout condition of the layout pattern comprises a layout width and a layout space etc.
According to an embodiment of the present invention, a layout condition is determined according to the space and the width of the layout pattern, and the rule-based OPC or the model-based OPC is determined according to the layout condition to perform the correcting of the layout pattern. A predetermined specification is used to compare with the correction pattern. Furthermore, in the present invention, a modified-rule OPE correction table is used to correct the special layout pattern, particularly for the asymmetric layout pattern and the special region with larger mask error enhance factor (MEEF) in the model-cased OPC.
In order to the make aforementioned and other objects, features and advantages of the present invention comprehensible, a preferred embodiment accompanied with figures are described in detail below.
Because the size of the element becomes increasingly small, during the lithography step, deviation may occur during the transfer of the layout pattern, for example, the right angle part is blunted, the tail end of the pattern is shrunken, and the line width is reduced or increased etc. Accordingly, the present invention determines type of OPC to be used according to the pitch of the layout pattern. In order to make the content of the present invention be more understandable, the embodiments are described as follows to serve as the examples according to which the present invention may surely implement.
Next, the first correction pattern is compared with a predetermined specification (step 207), wherein the predetermined specification is determined according to different process specifications (e.g. 90 nm and 45 nm etc.), customer requirements, type of product (e.g. analog circuit or digital circuit), and the error tolerance value after development etc. After the comparison step is completed, the correction is deemed complete when the first correction pattern conforms to the predetermined specification (step 215). On the contrary, when the first correction pattern does not conform to the predetermined specification, the method is automatically switched to the rule-based OPC, according to the layout condition of the layout pattern such as the layout width and the layout space, the correction is performed by reading the correction rule quantity at the corresponding position of the rule table to generate a second correction pattern.
Next, the second correction pattern is compared with the predetermined specification to inspect whether the second correction pattern conforms to the predetermined specification (step 211). If the second correction patterned accords with the specification, the correcting is finished (step 215). On the contrary, if the second correction pattern does not conforms to the predetermined specification, a modified-rule OPE correction table is adopted (step 213), and the special layout pattern is corrected according to the correction table.
It should be noted that the step 213 is generated for a special layout pattern, when the model-based OPC cannot correctly correct the special layout pattern, and the rule-based OPC also cannot correctly correct the special layout pattern, the modified-rule OPE correction table is used to perform the correcting of the layout pattern. The modified-rule OPE correction table has a plurality of groups of correcting rules with special conditions, and it may be obtained from experiments or empirical data. In other words, for the correcting rule under the special layout condition, the so-called special layout condition is, for example, the asymmetric layout pattern, or the critical position between the dense pattern region and the isolation pattern region. In the model-based OPC, several special layout conditions exist, and larger deviation value may be generated. The above referred states may be listed as the special layout conditions, and the individually corrected rule is stored in the modified-rule OPE correction table for the pattern correcting.
In another embodiment of the present invention, the modified-rule OPE correction table also has recording and storing functions, when under the special layout condition, the most preferred correcting rule is recorded to serve as the subsequent correcting reference data. Definitely, the modified-rule OPE correction table may also be corrected by manually adding correcting. When the performed test pattern or the experimental data is more, the data of the correction table is more complete accordingly, and includes more special conditions, such that any layout patterns can be exactly corrected in the future. Finally, after the correcting is finished (step 215), the corrected layout pattern is sent to the photomask factory to perform the subsequent processes.
In this embodiment, in step 245, according to the layout condition, the model-cased OPC or the rule-based OPC is selected to correct the layout pattern. The layout width (the width of the layout pattern or the line width) and the layout space (density of the patterns) correspond to the pitch of the layout pattern. In other words, the model-based OPC or the rule-based OPC may be selected according to the pitch and the layout width. If the model-based OPC is selected, the method proceeds to step 247, and if the rule-based OPC is used, the method proceeds to step 257 to correct the layout pattern.
Referring to
In still another embodiment of the present invention, in step 245, if the layout condition of the layout pattern is the special layout condition, the modified-rule proximity effect correction table may be directed used (step 255) to correct.
In this embodiment, if according to the layout condition, in step 245, the model-based OPC is selected (step 247) to perform the correction on the layout pattern, according to the layout condition of the layout pattern, the curve fitting method is used to obtain a mathematical equation, and the equation is used to correct the layout pattern, so as to generate a first correction pattern. If it is determined that the value of the curve fitting is too different from the practical data, it is automatically switched to the rule-based OPC. Steps 247-255 are the same as or similar to steps 205-213 of the above embodiments, so they are not described here.
Moreover, according to the layout condition, if in step 245, the rule-based OPC (step 257) is selected to perform the correction on the layout pattern, according to the layout condition of the layout pattern, the correction is perform by reading the correcting rule quantity at the corresponding position of the rule table. Steps 257-263 are the same as or similar to steps 225-233 of the above embodiments, so they are not described here. Finally, after the correcting is finished (step 265), the corrected layout pattern is sent to the photomask factory to perform the subsequent processes. Therefore, in this embodiment, for the layout patterns with different layout conditions, OPC suitable for the pattern is used to correct the pattern, and for the pattern at the critical position of the layout condition, if the rule-based and the model-based OPC are not suitable, it is considered as the special pattern, and the modified-rule OPE correction table is used to perform the correction.
In order to express the above concept more exactly, it is illustrated with the simple drawings as follows.
Furthermore,
Referring to
In addition,
Furthermore, if the rule-based OPC is separately used, in the case of the asymmetric layout pattern, it is impossible to precisely correct the layout pattern, and for the 2D (dimension) layout pattern, the correcting accuracy waits to be improved. Therefore, in the present invention, the model-based OPC and the rule-based OPC are combined, and also the modified-rule OPE correction table is provided to correct the special layout pattern, e.g. asymmetric layout pattern.
It should be noted that in the present invention the layout condition of the corrected special layout pattern and the corresponding correcting rule are stored in the modified-rule OPE correction table in the database. In the future, the layout pattern with similar or same layout conditions may be corrected according to the correction table in the database.
To sum up, the method for correcting a photomask pattern of the present invention has at least the following advantages.
1. The model-based OPC is used in the dense pattern region, and the rule-based OPC is used in the isolation pattern region, the two correction methods are combined to improve the fidelity correction and also increase the correction rate.
2. When the special layout pattern occurs, and the above two correction methods cannot provide precise correction result, the modified-rule OPE correction table is used to correct. When more test patterns are performed, in the future it may be applied to a wider range on the layout pattern correction.
It will be apparent to those skilled in the art that various modifications and variations can be made to the structure of the present invention without departing from the scope or spirit of the invention. In view of the foregoing, it is intended that the present invention cover modifications and variations of this invention provided they fall within the scope of the following claims and their equivalents.
