A hardware implementation of the log-add algorithm, being a simple method of computing ln(A + B) given ln(A) and ln(B), as used in speech recognition, is presented. It is shown that it can be efficiently implemented in hardware using a small look-up table plus some additional arithmetic logic, with no significant loss of accuracy over direct calculation
The aim of this thesis is to compare the implementation of parameterisable LNS (logarithmic number s...
This study presents an efficient method for converting a normalised binary number x (1 ? x < 2) into...
This thesis presents two novel algorithms for converting a normalised binary floating point number i...
Abstract—The realization of functions such as log() and antilog() in hardware is of considerable rel...
This paper presents an e cient hardware algorithm for variable-precision logarithm. The algorithm us...
International audienceResource requirements for hardware acceleration of neural networks inference i...
Logarithmic Number System (LNS) is often used in digital signal processing to simplify complex arith...
This paper presents a low-error, low-area FPGA-based hardware logarithm generator for digital signal...
Speech enhancement algorithms have been successfully used in many applications, such as hearing-aid ...
Speech recognition is a computationally demanding task, especially the decoding part, which converts...
A low cost, high-speed architecture for the computation of the binary logarithm is proposed. It is b...
Abstract. The paper deals with efficient hardware implementation of exact arithmetic. This kind of a...
International audienceEconomical hardware often uses a FiXed-point Number System (FXNS), whose const...
International audienceEconomical hardware often uses a FiXed-point Number System (FXNS), whose const...
The advent of reconfigurable co-processors based on field-programmable gate arrays has renewed inter...
The aim of this thesis is to compare the implementation of parameterisable LNS (logarithmic number s...
This study presents an efficient method for converting a normalised binary number x (1 ? x < 2) into...
This thesis presents two novel algorithms for converting a normalised binary floating point number i...
Abstract—The realization of functions such as log() and antilog() in hardware is of considerable rel...
This paper presents an e cient hardware algorithm for variable-precision logarithm. The algorithm us...
International audienceResource requirements for hardware acceleration of neural networks inference i...
Logarithmic Number System (LNS) is often used in digital signal processing to simplify complex arith...
This paper presents a low-error, low-area FPGA-based hardware logarithm generator for digital signal...
Speech enhancement algorithms have been successfully used in many applications, such as hearing-aid ...
Speech recognition is a computationally demanding task, especially the decoding part, which converts...
A low cost, high-speed architecture for the computation of the binary logarithm is proposed. It is b...
Abstract. The paper deals with efficient hardware implementation of exact arithmetic. This kind of a...
International audienceEconomical hardware often uses a FiXed-point Number System (FXNS), whose const...
International audienceEconomical hardware often uses a FiXed-point Number System (FXNS), whose const...
The advent of reconfigurable co-processors based on field-programmable gate arrays has renewed inter...
The aim of this thesis is to compare the implementation of parameterisable LNS (logarithmic number s...
This study presents an efficient method for converting a normalised binary number x (1 ? x < 2) into...
This thesis presents two novel algorithms for converting a normalised binary floating point number i...