Power and area-optimised Carry-Select Adder architecture for standard cell-based design

Shanmugam, Muthukumar; Choi, GoangSeog

doi:10.1080/00207217.2014.981870

Cited by 4 publications

(1 citation statement)

References 12 publications

(15 reference statements)

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“…However, the extra RCA structure in each block increases the adder's size and propagation delay. Many CSA methods have already been proposed [24].…”

Section: Conventional Carry Select Adder (Ccsa)mentioning

confidence: 99%

A new Excess-1 circuit based High-Speed Carry Select Adder in 18 nm FinFET Technology

Battini

PASHYA

Sivani

2023

Preprint

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Conventional carry select adder (CCSA) uses a multiplexer in the final stage to select either an excess-1 result or a normal result. To improve the delay and number of transistors a new topology is Proposed (PCSA) that uses only a single type of cell i.e., a 2 − 1 multiplexer. The 2 − 1 multiplexer is constructed in CMOS and TGL logic styles using 18nm FinFETs. The sub-blocks such as half adder and excess-1 circuit used in this PCSA is realized using only a 2:1 multiplexer. Due to the usage of a single type 2:1 multiplexer, the PCSA exhibits better circuit regularity. The new topology of PCSA is designed using FinFET-based TGL and CMOS styles. All the adders such 4- and 8-bit are designed, simulated, and analyzed using Cadence Virtuoso, ADEL, and ADEXL at 18nm FinFET technology. The result analysis reveals that the speed performance and the number of transistors of 8-bit PCSA are better by 44.02% and 4% respectively compared to existing adders.

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“…However, the extra RCA structure in each block increases the adder's size and propagation delay. Many CSA methods have already been proposed [24].…”

Section: Conventional Carry Select Adder (Ccsa)mentioning

confidence: 99%

A new Excess-1 circuit based High-Speed Carry Select Adder in 18 nm FinFET Technology

Battini

PASHYA

Sivani

2023

Preprint

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An efficient single-stage carry select adder using excess-1 FinFET circuit in 22 nm technology

Battini,

Kosaraju

2024

Semicond. Sci. Technol.

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To choose the option between an excess-1 result and a normal result,the conventional carry select adder (CCSA) employs two ripple-carry adders and amultiplexer in the last step. Second, whereas the proposed single-stage carry selectadder (SSCSA) avoids using full adders for the generation of both normal and excessresults, the present full adders require multiple full adders. A novel architecture isdeveloped and specifically designed to improve power dissipation and latency. It relieson a single circuit that produces normal/excess-1 results dependent on input carry.Heterogeneous logic combining CMOS, Dual Value Logic (DVAL), and TransmissionGate Logic (TRGL) with 22nm Fin-FETs powers the 1-bit SSCSA circuit. Bettercircuit regularity is displayed by the 4-bit SSCSA as it only uses one type of 1-bitSSCSA. With the use of Cadence Virtuoso, ADEL, and ADEXL at 22nm FinFETtechnology, all adders, including 4- and 8-bit adders, are designed, simulated, andexamined. According to the resulting study, the 4-bit SSCSA outperforms the bestadder currently in use in terms of speed performance and power dissipation by 17.6%and 27.6%, respectively. By comparison with all other designs, SSCSAs outperformthem at each and every corner.

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MDCLCG with Square Root Carry Select Adder Technique for Hardware Security

Sushmitha¹,

Jamal

Kiran

et al. 2022

2022 International Conference on Augmented Intelligence and Sustainable Systems (ICAISS)

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Power and area-optimised Carry-Select Adder architecture for standard cell-based design

Cited by 4 publications

References 12 publications

A new Excess-1 circuit based High-Speed Carry Select Adder in 18 nm FinFET Technology

A new Excess-1 circuit based High-Speed Carry Select Adder in 18 nm FinFET Technology

An efficient single-stage carry select adder using excess-1 FinFET circuit in 22 nm technology

MDCLCG with Square Root Carry Select Adder Technique for Hardware Security

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