최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0288685 (2011-11-03) |
등록번호 | US-8862650 (2014-10-14) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 0 인용 특허 : 296 |
Circuitry for computing a tangent function of an input value includes first look-up table circuitry that stores pre-calculated tangent values of a limited number of sample values, circuitry for inputting bits of the input value of most significance as inputs to the first look-up table circuitry to l
Circuitry for computing a tangent function of an input value includes first look-up table circuitry that stores pre-calculated tangent values of a limited number of sample values, circuitry for inputting bits of the input value of most significance as inputs to the first look-up table circuitry to look up one of the pre-calculated tangent values as a first intermediate tangent value, circuitry for calculating a second intermediate tangent value from one or more ranges of remaining bits of the input value, and circuitry for combining the first intermediate tangent value and the second intermediate tangent value to yield the tangent function of the input value.
1. Circuitry for computing a tangent function of an input value, said circuitry comprising: first look-up table circuitry that stores pre-calculated tangent values of a limited number of sample values;circuitry for inputting bits of said input value of most significance as inputs to said first look-
1. Circuitry for computing a tangent function of an input value, said circuitry comprising: first look-up table circuitry that stores pre-calculated tangent values of a limited number of sample values;circuitry for inputting bits of said input value of most significance as inputs to said first look-up table circuitry to look up one of said pre-calculated tangent values as a first intermediate tangent value;circuitry for calculating a second intermediate tangent value from one or more ranges of remaining bits of said input value; andcircuitry for combining said first intermediate tangent value and said second intermediate tangent value to yield said tangent function of said input value. 2. The circuitry of claim 1 wherein: said circuitry for calculating a second intermediate tangent value from one or more ranges comprises, for each respective one of said one or more ranges:respective additional look-up table circuitry for outputting a respective third intermediate tangent value from a respective first subrange of said respective one of said one or more ranges;respective additional circuitry for calculating a respective fourth intermediate tangent value from a respective second subrange of said respective one of said one or more ranges; andrespective additional circuitry for combining said respective third intermediate tangent value and said respective fourth intermediate tangent value to yield said second intermediate tangent value. 3. The circuitry of claim 2 further comprising, for each of one or more of said subranges, respective further look-up table circuitry, respective further circuitry for calculating, and respective further circuitry for combining. 4. The circuitry of claim 1 wherein circuitry for calculating one of said intermediate tangent values for one of said ranges of remaining bits of least significance approximates said one of said intermediate tangent values by setting said one of said intermediate tangent values equal to said one of said ranges of remaining bits of least significance. 5. The circuitry of claim 1 wherein circuitry for calculating one of said intermediate tangent values for one of said ranges of remaining bits of least significance calculates said one of said intermediate tangent values as a power series. 6. The circuitry of claim 1 wherein said circuitry for combining includes circuitry for dividing. 7. The circuitry of claim 6 wherein said circuitry for dividing performs division by approximation. 8. The circuitry of claim 7 wherein said circuitry for dividing performs division as a power series. 9. The circuitry of claim 8 wherein said circuitry for dividing calculates higher-order terms of said power series as an additive approximation. 10. The circuitry of claim 1 wherein: said circuitry for calculating a second intermediate value comprises circuitry for computing a series expansion of a tangent of a sum of bits of said input value of intermediate significance and bits of said input value of least significance. 11. The circuitry of claim 10 wherein said circuitry for computing a series expansion comprises: circuitry for adding said first intermediate tangent value and said bits of said input value of least significance to provide a first interim value;circuitry for multiplying said first intermediate tangent value and said bits of said input value of least significance to provide a second interim value;circuitry for adding said second interim value to ‘1’ to provide a third interim value;circuitry for multiplying said first interim value by said third interim value to provide a fourth interim value;circuitry for approximating a sum of ‘1’ and a square of said second interim value; andcircuitry for adding said approximated sum to said fourth interim value. 12. The circuitry of claim 11 wherein said circuitry for approximating a sum of ‘1’ and a square of said second interim value comprises: circuitry for multiplying upper bits of said second interim value by themselves to provide an approximation of said square of said second interim value; andcircuitry for multiplying said approximation of said square of said second interim value by said first intermediate tangent value. 13. The circuitry of claim 12 wherein: said upper bits of said second interim value comprise between three bits and five bits of said second interim value. 14. The circuitry of claim 12 wherein: circuitry for adding said approximated sum to said fourth interim value adds, to said fourth interim value, upper bits of output of said circuitry for multiplying said approximation of said square of said second interim value by said first intermediate tangent value. 15. A method of configuring a programmable integrated circuit device as circuitry for computing a tangent function of an input value, said method comprising: configuring first look-up table circuitry that stores pre-calculated tangent values of a limited number of sample values;configuring circuitry for inputting bits of said input value of most significance as inputs to said first look-up table circuitry to look up one of said pre-calculated tangent values as a first intermediate tangent value;configuring circuitry for calculating a second intermediate tangent value from one or more ranges of remaining bits of said input value; andconfiguring circuitry for combining said first intermediate tangent value and said second intermediate tangent value to yield said tangent function of said input value. 16. The method of claim 15 wherein: said configuring circuitry for calculating a second intermediate tangent value from one or more ranges comprises configuring, for each respective one of said one or more ranges:respective additional look-up table circuitry for outputting a respective third intermediate tangent value from a respective first subrange of said respective one of said one or more ranges;respective additional circuitry for calculating a respective fourth intermediate tangent value from a respective second subrange of said respective one of said one or more ranges; andrespective additional circuitry for combining said respective third intermediate tangent value and said respective fourth intermediate tangent value to yield said second intermediate tangent value. 17. The method of claim 16 further comprising configuring, for each of one or more of said subranges, respective further look-up table circuitry, respective further circuitry for calculating, and respective further circuitry for combining. 18. The method of claim 15 wherein said configuring circuitry for calculating one of said intermediate tangent values for one of said ranges of remaining bits of least significance comprises configuring circuitry that approximates said one of said intermediate tangent values by setting said one of said intermediate tangent values equal to said one of said ranges of remaining bits of least significance. 19. The method of claim 15 wherein said configuring circuitry for calculating one of said intermediate tangent values for one of said ranges of remaining bits of least significance comprises configuring circuitry that calculates said one of said intermediate tangent values as a power series. 20. The method of claim 15 wherein said configuring circuitry for combining includes configuring circuitry for dividing. 21. The method of claim 20 wherein said configuring circuitry for dividing comprises configuring circuitry that performs division by approximation. 22. The method of claim 21 wherein said configuring circuitry for dividing comprises configuring circuitry that performs division as a power series. 23. The method of claim 22 wherein said configuring circuitry for dividing comprises configuring circuitry that calculates higher-order terms of said power series as an additive approximation. 24. The method of claim 15 wherein: said configuring circuitry for calculating a second intermediate value comprises configuring circuitry for computing a series expansion of a tangent of a sum of bits of said input value of intermediate significance and bits of said input value of least significance. 25. The method of claim 24 wherein said configuring circuitry for computing a series expansion comprises: configuring circuitry for adding said first intermediate tangent value and said bits of said input value of least significance to provide a first interim value;configuring circuitry for multiplying said first intermediate tangent value and said bits of said input value of least significance to provide a second interim value;configuring circuitry for adding said second interim value to ‘1’ to provide a third interim value;configuring circuitry for multiplying said first interim value by said third interim value to provide a fourth interim value;configuring circuitry for approximating a sum of ‘1’ and a square of said second interim value; andconfiguring circuitry for adding said approximated sum to said fourth interim value. 26. The method of claim 25 wherein said configuring circuitry for approximating a sum of ‘1’ and a square of said second interim value comprises: configuring circuitry for multiplying upper bits of said second interim value by themselves to provide an approximation of said square of said second interim value; andconfiguring circuitry for multiplying said approximation of said square of said second interim value by said first intermediate tangent value. 27. The method of claim 26 wherein: said upper bits of said second interim value comprise between three bits and five bits of said second interim value. 28. The method of claim 26 wherein: said configuring circuitry for adding said approximated sum to said fourth interim value comprises configuring circuitry that adds, to said fourth interim value, upper bits of output of said circuitry for multiplying said approximation of said square of said second interim value by said first intermediate tangent value. 29. A non-transitory machine-readable data storage medium encoded with non-transitory machine-executable instructions for configuring a programmable integrated circuit device as circuitry for computing a tangent function of an input value, said instructions comprising: instructions to configure first look-up table circuitry that stores pre-calculated tangent values of a limited number of sample values;instructions to configure circuitry for inputting bits of said input value of most significance as inputs to said first look-up table circuitry to look up one of said pre-calculated tangent values as a first intermediate tangent value;instructions to configure circuitry for calculating a second intermediate tangent value from one or more ranges of remaining bits of said input value; andinstructions to configure circuitry for combining said first intermediate tangent value and said second intermediate tangent value to yield said tangent function of said input value.
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