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ARITH
1999
IEEE
1999
IEEE
On the Design of High-Radix On-Line Division for Long Precision
We present a design of a high-radix on-line division suitable for long precision computations. The proposed scheme uses a quotient-digit selection function based on the residual rounding and scaling of the operands. The bounds on the number of cycles and the cycle time for radix 2k and n-bit precision are obtained in terms of full-adder delays. The speedup with respect to radix 2 is greater than 3.3 for k 6 and n 64. The cost increases as a function of the radix. For the case r = 64 and n = 64, the increase in area with respect to r = 2 is about 6.6 times plus a 51210-bit table. The proposed scheme has been designed and veri ed using VHDL and a 1:2m CMOS standard gate technology from MOSIS library.
Real-time TrafficApplied Computing | ARITH 1999 | Long Precision Computations | Quotient-digit Selection Function | Radix |
| Added | 02 Aug 2010 |
| Updated | 02 Aug 2010 |
| Type | Conference |
| Year | 1999 |
| Where | ARITH |
| Authors | Alexandre F. Tenca, Milos D. Ercegovac |
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