Reduced Latency IEEE Floating-Point Standard Adder Architectures

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	Similar Articles Articles by A. Beaumont-Smith Articles by N. Burgess Articles by S. Lefrere Articles by C.C. Lim

14th IEEE Symposium on Computer Arithmetic (ARITH-14 '99)

Adelaide, Australia

April 14-April 16

ISBN: 0-7695-0116-8

	ASCII Text	x
	A. Beaumont-Smith, N. Burgess, S. Lefrere, C.C. Lim, "Reduced Latency IEEE Floating-Point Standard Adder Architectures," Computer Arithmetic, IEEE Symposium on, pp. 35, 14th IEEE Symposium on Computer Arithmetic (ARITH-14 '99), 1999.

	BibTex	x
	@article{ 10.1109/ARITH.1999.762826, author = {A. Beaumont-Smith and N. Burgess and S. Lefrere and C.C. Lim}, title = {Reduced Latency IEEE Floating-Point Standard Adder Architectures}, journal ={Computer Arithmetic, IEEE Symposium on}, volume = {0}, year = {1999}, issn = {1063-6889}, pages = {35}, doi = {http://doi.ieeecomputersociety.org/10.1109/ARITH.1999.762826}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

	RefWorks Procite/RefMan/Endnote	x
	TY - CONF JO - Computer Arithmetic, IEEE Symposium on TI - Reduced Latency IEEE Floating-Point Standard Adder Architectures SN - 1063-6889 SP EP A1 - A. Beaumont-Smith, A1 - N. Burgess, A1 - S. Lefrere, A1 - C.C. Lim, PY - 1999 KW - floating-point KW - adder KW - arithmetic KW - VLSI. VL - 0 JA - Computer Arithmetic, IEEE Symposium on ER -

A. Beaumont-Smith, The University of Adelaide

N. Burgess, The University of Adelaide

S. Lefrere, The University of Adelaide

C.C. Lim, The University of Adelaide

DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/ARITH.1999.762826

The design and implementation of a double precision floating-point IEEE-754 standard adder is described which uses "flagged prefix addition" to merge rounding with the significand addition. The floating-point adder is implemented in 0.5um CMOS, measures 1.8mm^2, has a 3-cycle latency and implements all rounding modes. A modified version of this floating-point adder can perform accumulation in 2-cycles with a small amount of extra hardware for use in a parallel processor node. This is achieved by feeding back the previous un-normalised but correctly rounded result together with the normalisation distance. A 2-cycle latency floating-point adder architecture with potentially the same cycle time that also employs flagged prefix addition is described. It also incorporates a fast prediction scheme for the true subtraction of significands with an exponent difference of 1, with one less adder.

Index Terms:

floating-point, adder, arithmetic, VLSI.

Citation:

A. Beaumont-Smith, N. Burgess, S. Lefrere, C.C. Lim, "Reduced Latency IEEE Floating-Point Standard Adder Architectures," arith, pp.35, 14th IEEE Symposium on Computer Arithmetic (ARITH-14 '99), 1999

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