Title :
A high-speed multiplier using a redundant binary adder tree
Author :
Harata, Yoshihisa ; Nakamura, Yoshio ; Nagase, Hiroshi ; Takigawa, Mitsuharu ; Takagi, Naofumi
fDate :
2/1/1987 12:00:00 AM
Abstract :
A 16-bit × 16-bit multiplier for 2 two´s-complement binary numbers based on a new algorithm is described. This multiplier has been fabricated on an LSI chip using a standard n-E/D MOS process technology with a 2.7-μm design rule. This multiplier is characterized by use of a binary tree of redundant binary adders. In the new algorithm, n-bit multiplication is performed in a time proportional to log/SUB 2/ n and the physical design of the multiplier is constructed of a regular cellular array. This new algorithm has been proposed by N. Takagi et al. (1982, 1983). The 16-bit×16-bit multiplier chip size is 5.8 × 6.3 mm/SUP 2/ using the new layout for a binary adder tree. The chip contains about 10600 transistors, and the longest logic path includes 46 gates. The multiplication time was measured as 120 ns. It is estimated that a 32-bit × 32-bit multiplication time is about 140 ns.
Keywords :
Cellular arrays; Digital arithmetic; Field effect integrated circuits; Integrated logic circuits; Multiplying circuits; VLSI; cellular arrays; digital arithmetic; field effect integrated circuits; integrated logic circuits; multiplying circuits; Algorithm design and analysis; Array signal processing; Binary trees; Filtering; Large scale integration; Logic; Real time systems; Semiconductor device measurement; Signal processing algorithms; Time measurement;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.1987.1052667
