International audienceOptimizing the number of additions in constant coefficient multiplication is conjectured to be a NP-hard problem. In this paper, we report a new heuristic requiring an average of 29.10 % and 10.61 % less additions than the standard canonical signed digit representation (CSD) and the double base number system (DBNS), respectively, for 64-bit coefficients. The maximum number of additions per coefficient is bounded by (N/4)+2, and the time-complexity of the recoding is linearly proportional to N, where N is the bit-size of the constant. These performances are achieved using a new redundant version of radix-28 recoding
This brief addresses the problem of implementing very large constant multiplications by a single var...
With the advent of the VLSI technology, designers could design simple chips with the more number of ...
In this paper, we introduce a novel high-radix binary signed digit (BSD) serial-parallel multiplier ...
International audienceIn this paper, radix-2r arithmetic is explored to minimize the number of addit...
International audienceThis paper addresses the problem of multiplication with large operand sizes (N...
International audienceIn this paper, a new recursive multibit recoding multiplication algorithm is i...
International audienceIn this paper, a new recursive multibit recoding multiplication algorithm is i...
A variable can be multiplied by a given set of fixed-point constants using a multiplier block that c...
Multiple Constant Multiplication (MCM) over integers is a frequent operation arising in embedded sys...
The multiple constant multiplication (MCM) operation is a fundamental operation in digital signal pr...
International audienceMany algorithms from digital signal processing, including digital filters or d...
This paper introduces two novel architectures for parallel decimal multipliers. Our multipliers are ...
The method 2n + 1 multiplier is the congestion of a wide drift of applications from silt collection ...
Abstract—The Booth multiplier has been widely used for high performance signed multiplication by enc...
This paper describes a new multiplication algorithm, particularly suited to lightweight microprocess...
This brief addresses the problem of implementing very large constant multiplications by a single var...
With the advent of the VLSI technology, designers could design simple chips with the more number of ...
In this paper, we introduce a novel high-radix binary signed digit (BSD) serial-parallel multiplier ...
International audienceIn this paper, radix-2r arithmetic is explored to minimize the number of addit...
International audienceThis paper addresses the problem of multiplication with large operand sizes (N...
International audienceIn this paper, a new recursive multibit recoding multiplication algorithm is i...
International audienceIn this paper, a new recursive multibit recoding multiplication algorithm is i...
A variable can be multiplied by a given set of fixed-point constants using a multiplier block that c...
Multiple Constant Multiplication (MCM) over integers is a frequent operation arising in embedded sys...
The multiple constant multiplication (MCM) operation is a fundamental operation in digital signal pr...
International audienceMany algorithms from digital signal processing, including digital filters or d...
This paper introduces two novel architectures for parallel decimal multipliers. Our multipliers are ...
The method 2n + 1 multiplier is the congestion of a wide drift of applications from silt collection ...
Abstract—The Booth multiplier has been widely used for high performance signed multiplication by enc...
This paper describes a new multiplication algorithm, particularly suited to lightweight microprocess...
This brief addresses the problem of implementing very large constant multiplications by a single var...
With the advent of the VLSI technology, designers could design simple chips with the more number of ...
In this paper, we introduce a novel high-radix binary signed digit (BSD) serial-parallel multiplier ...