Abstract. This paper proposes a new means to complete the optical vector-matrix multiplication (OVMM). The OVMM is implemented on a novel optical computing architecture, ternary optical computer (TOC) by using modified signed-digit (MSD) number system. In addition, this study realizes optical addition in three steps, independent of the length of the operands, by four trans-formations in MSD, and discuses the multiplication of two MSD numbers in detail. A preliminary experimentation about the OVMM is performed on TOC. It illustrates that the proposed method for OVMM is feasible and correct. Key words. parallel, modified signed-digit, no-carry addition, basic operating unit, partial sum 1
An embedded architecture of optical vector matrix multiplier (OVMM) is presented. The embedded archi...
International audienceWe present the architecture of a new optical processor specialized in matrix-b...
Optics is a promising platform in which to help realize the next generation of fast, parallel, and e...
A three-step Ternary optical modified signed digit (MSD) adder is proposed based on decrease-radix d...
An optical system which performs the multiplication of binary numbers is described and proof-of-prin...
Negabinary is a component of the positional number system. A complete set of negabinary arithmetic o...
A direct twos-complement parallel array multiplication algorithm is introduced and modified for digi...
Abstract. Recent advances in computing allow taking new look at ma-trix multiplication, where the ke...
A two-step digit-set-restricted modified signed-digit (MSD) adder based on symbolic substitution is ...
On the basis of signed-digit negabinary representation, parallel two-step addition and one-step subt...
Carry-free addition and borrow-free subtraction of modified signed-digit trinary numbers with optica...
A parallel arithmetic, suitable for optical computers, can be obtained using two main approaches 1) ...
International audienceCompared with the conventional electronic computer, the Ternary Optical Comput...
We present a novel design for an optical vector matrix multiplier that enables miniaturization of op...
A redundant binary number representation allows the algebraic sum on signed numbers in constant time...
An embedded architecture of optical vector matrix multiplier (OVMM) is presented. The embedded archi...
International audienceWe present the architecture of a new optical processor specialized in matrix-b...
Optics is a promising platform in which to help realize the next generation of fast, parallel, and e...
A three-step Ternary optical modified signed digit (MSD) adder is proposed based on decrease-radix d...
An optical system which performs the multiplication of binary numbers is described and proof-of-prin...
Negabinary is a component of the positional number system. A complete set of negabinary arithmetic o...
A direct twos-complement parallel array multiplication algorithm is introduced and modified for digi...
Abstract. Recent advances in computing allow taking new look at ma-trix multiplication, where the ke...
A two-step digit-set-restricted modified signed-digit (MSD) adder based on symbolic substitution is ...
On the basis of signed-digit negabinary representation, parallel two-step addition and one-step subt...
Carry-free addition and borrow-free subtraction of modified signed-digit trinary numbers with optica...
A parallel arithmetic, suitable for optical computers, can be obtained using two main approaches 1) ...
International audienceCompared with the conventional electronic computer, the Ternary Optical Comput...
We present a novel design for an optical vector matrix multiplier that enables miniaturization of op...
A redundant binary number representation allows the algebraic sum on signed numbers in constant time...
An embedded architecture of optical vector matrix multiplier (OVMM) is presented. The embedded archi...
International audienceWe present the architecture of a new optical processor specialized in matrix-b...
Optics is a promising platform in which to help realize the next generation of fast, parallel, and e...