Low power Wallace multiplier design based on wide counters

Abed, Sa’ed; Mohd, Bassam Jamil; Al-bayati, Zaid; Alouneh, Sahel

doi:10.1002/cta.779

Cited by 31 publications

(31 citation statements)

References 19 publications

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“…Implementations were designed and analyzed based on advanced design flow similar to design flows used in other research works such as [36][37][38][39][40]. The design flow is summarized as follows:…”

Section: Design and Measurement Methodologymentioning

confidence: 99%

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Hardware design and modeling of lightweight block ciphers for secure communications

Mohd

Hayajneh

Yousef

et al. 2018

Future Generation Computer Systems

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Section: Design and Measurement Methodologymentioning

confidence: 99%

“…VCD files are fed to Quartus-II tool to compute design power. This technique is commonly used in research works such as [36][37][38][39][40] and [34]. The reported power is mainly the core dynamic power which includes combinational logic power, clock tree power and register power.…”

Section: Power Dissipationmentioning

confidence: 99%

Hardware design and modeling of lightweight block ciphers for secure communications

Mohd

Hayajneh

Yousef

et al. 2018

Future Generation Computer Systems

Self Cite

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“…Different tiling techniques were used to decompose the large size multipliers, which efficiently reduce the use of multiplier blocks but are less flexible. In [11], a new algorithm was proposed to construct a low-power multiplier based on the Wallace tree. Among other things, it tackles the lengthy interconnects in Wallace tree multipliers and reduces the power dissipation and the gate usage through the use of high-order counters.…”

Section: Introductionmentioning

confidence: 99%

Asymmetric large size multipliers with optimised FPGA resource utilisation

Gao

Al-Khalili

Chabini

et al. 2012

IET Computers &Amp; Digital Techniques

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In this study, asymmetric non-pipelined large size unsigned and signed multipliers are implemented using symmetric and asymmetric embedded multipliers, look-up tables and dedicated adders in field programmable gate arrays (FPGAs). Decompositions of the operands are performed for the efficient use of the embedded blocks. Partial products are organised in various configurations, and the additions of the products are realised in an optimised manner. The additions used in the implementation of the multiplication include compressor-based, Delay- Table and Ternary-adder-based approaches. These approaches have led to the minimisation of the total critical path delay with reduced utilisation of FPGA resources. The asymmetric multipliers were implemented in Xilinx FPGAs using 18 × 18-bit and 25 × 18-bit embedded signed multipliers. Implementation results demonstrate an improvement of up to 32% in delay and up to 37% in the number of embedded blocks compared with the performance of designs generated by commercial synthesis tools.

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“…Multipliers are used in many digital systems available today especially in digital signal processors [1]. The design and implementation approaches of multipliers contribute substantially to the area, speed, and power consumption of computational intensive VLSI systems [2][3][4].…”

Section: Introductionmentioning

confidence: 99%

Simplified carry save adder‐based array multiplier scheme and circuits design

Jia

Lyu

et al. 2014

Circuit Theory & Apps

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Conventional array multiplier based on carry save adders is optimized in this letter. Some specific full adders in the adders array for partial products accumulation are simplified without any cost. By modifying the logic expressions of two special full adders, circuit complexity is reduced, resulting in decreased power dissipation and propagation delay. Static circuit structures for the adders are provided to demonstrate the effectiveness. Furthermore, logical AND gates to produce partial products are redesigned to save area and power. The layout regularity of array multiplier is well preserved. Circuit simulation shows that speed and power can be improved 9.7% and 3.1% for a 4*4 structure, and the number of transistors decreases 5.3%.

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Low power Wallace multiplier design based on wide counters

Cited by 31 publications

References 19 publications

Hardware design and modeling of lightweight block ciphers for secure communications

Hardware design and modeling of lightweight block ciphers for secure communications

Asymmetric large size multipliers with optimised FPGA resource utilisation

Simplified carry save adder‐based array multiplier scheme and circuits design

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