Improved Non-restoring Square Root Algorithm with Dual Path Calculation

被引:0
|
作者
Jun, Kihwan [1 ]
Swartzlander, Earl E., Jr. [1 ]
机构
[1] Univ Texas Austin, Dept Elect & Comp Engn, Austin, TX 78712 USA
来源
CONFERENCE RECORD OF THE 2014 FORTY-EIGHTH ASILOMAR CONFERENCE ON SIGNALS, SYSTEMS & COMPUTERS | 2014年
关键词
IMPLEMENTATIONS; DIVISION;
D O I
暂无
中图分类号
TP [自动化技术、计算机技术];
学科分类号
0812 ;
摘要
This paper focuses on reducing the delay of the non-restoring square root algorithm. Although the non-restoring square root algorithm is faster than the other radix-2 digit recurrent square root algorithms, there are still some possibilities to enhance its performance. To improve its performance, two new approaches are proposed here. For the first proposed approach, a novel method to find a square root bit for every iteration, which hides the total delay of the multiplexer with dual path calculation is presented. Secondly, a new method uses the modified Most Significant Carry (MSC) generator, which determines the sign of each remainder faster than a carry lookahead adder, which reduces the total delay.
引用
收藏
页码:1243 / 1246
页数:4
相关论文
共 50 条
  • [1] Improved Non-restoring Division Algorithm with Dual Path Calculation
    Jun, Kihwan
    Swartzlander, Earl E., Jr.
    2013 IEEE 56TH INTERNATIONAL MIDWEST SYMPOSIUM ON CIRCUITS AND SYSTEMS (MWSCAS), 2013, : 1379 - 1382
  • [2] Parallel-array implementations of a non-restoring square root algorithm
    Li, YM
    Chu, WM
    INTERNATIONAL CONFERENCE ON COMPUTER DESIGN - VLSI IN COMPUTERS AND PROCESSORS, PROCEEDINGS, 1997, : 690 - 695
  • [3] A new non-restoring square root algorithm and its VLSI implementations
    Li, YM
    Chu, WM
    INTERNATIONAL CONFERENCE ON COMPUTER DESIGN - VLSI IN COMPUTERS AND PROCESSORS, PROCEEDINGS, 1996, : 538 - 544
  • [4] New Efficient Hardware Design Methodology for Modified Non-Restoring Square Root Algorithm
    Rahman, Atul
    Abdullah-Al-Kafi
    2014 INTERNATIONAL CONFERENCE ON INFORMATICS, ELECTRONICS & VISION (ICIEV), 2014,
  • [5] Modular array structure for non-restoring square root circuit
    Samavi, S.
    Sadrabadi, A.
    Fanian, A.
    JOURNAL OF SYSTEMS ARCHITECTURE, 2008, 54 (10) : 957 - 966
  • [6] Pipelined Implementation of fixed point Square Root in FPGA Using Modified Non-Restoring Algorithm
    Sajid, I.
    Ahmed, M. M.
    Ziavras, Sotirios G.
    2010 2ND INTERNATIONAL CONFERENCE ON COMPUTER AND AUTOMATION ENGINEERING (ICCAE 2010), VOL 3, 2010, : 226 - 230
  • [7] Novel Pipelined Architecture for Efficient Evaluation of the Square Root Using a Modified Non-Restoring Algorithm
    Sajid, Imtiaz
    Ahmed, M. M.
    Ziavras, Sotirios G.
    JOURNAL OF SIGNAL PROCESSING SYSTEMS FOR SIGNAL IMAGE AND VIDEO TECHNOLOGY, 2012, 67 (02): : 157 - 166
  • [8] Novel Pipelined Architecture for Efficient Evaluation of the Square Root Using a Modified Non-Restoring Algorithm
    Imtiaz Sajid
    M. M. Ahmed
    Sotirios G. Ziavras
    Journal of Signal Processing Systems, 2012, 67 : 157 - 166
  • [9] Design of a reversible floating-point square root using modified non-restoring algorithm
    AnanthaLakshmi, A. V.
    Sudha, Gnanou Florence
    MICROPROCESSORS AND MICROSYSTEMS, 2017, 50 : 39 - 53
  • [10] T-count and Qubit Optimized Quantum Circuit Design of the Non-Restoring Square Root Algorithm
    Munoz-Coreas, Edgard
    Thapliyal, Himanshu
    ACM JOURNAL ON EMERGING TECHNOLOGIES IN COMPUTING SYSTEMS, 2018, 14 (03)
12345