Add to ORKGAbstract. This paper presents two new high-speed lowpower 1-bit full-adder cells using an alternative logic structure, and the logic styles DPL and SR-CPL. The adders were designed using electrical parameters of a 0.35μm Complementary Metal-Oxide-Semiconductor (CMOS) process, and were compared with various adders published previously, with regards of power-delay product. To validate the performance simulation results of one of the proposed adders, an 8-bits pipelined multiplier was fabricated using a 0.35μm CMOS technology, and it showed to provide superior performance
Abstract--- In this paper we demonstrate the performance analysis of CMOS Full adder circuits in thi...
In this paper a modified Constant Delay Logic is been proposed to provide improved performance. Cont...
Abstract In this paper, we have designed an efficient full adder with high speed & low power. As...
Abstract. This paper presents two new high-speed low-power 1-bit full-adder cells using an alternati...
Abstract. This paper presents two new high-speed low-power 1-bit full-adder cells using an alternati...
AbstractThis paper presents a low voltage and high performance 1-bit full adder designed with an eff...
In this paper we present two novel 1-bit full adder cells in dynamic logic style. NP-CMOS (Zipper) a...
In this paper the main topologies of one-bit full adders, including the most interesting of those re...
In this paper the main topologies of one-bit full adders, including the most interesting of those re...
AbstractIn this paper, a novel low power 20T alternative adder cell featuring modified swing restore...
In response to the Moore's law and fast-pace society, low power and high speed IC design has become ...
In this paper the main topologies of one-bit full adders, including the most interesting of those re...
In this paper, a high-speed low-power 18T CMOS full adder design featuring full-swing output is prop...
This paper discusses a rail to rail swing, mixed logic style 1-bit 28-transistor (28T) full-adder, b...
Full-adders are the core element of the complex arithmetic circuits like addition, multiplication, d...
Abstract--- In this paper we demonstrate the performance analysis of CMOS Full adder circuits in thi...
In this paper a modified Constant Delay Logic is been proposed to provide improved performance. Cont...
Abstract In this paper, we have designed an efficient full adder with high speed & low power. As...
Abstract. This paper presents two new high-speed low-power 1-bit full-adder cells using an alternati...
Abstract. This paper presents two new high-speed low-power 1-bit full-adder cells using an alternati...
AbstractThis paper presents a low voltage and high performance 1-bit full adder designed with an eff...
In this paper we present two novel 1-bit full adder cells in dynamic logic style. NP-CMOS (Zipper) a...
In this paper the main topologies of one-bit full adders, including the most interesting of those re...
In this paper the main topologies of one-bit full adders, including the most interesting of those re...
AbstractIn this paper, a novel low power 20T alternative adder cell featuring modified swing restore...
In response to the Moore's law and fast-pace society, low power and high speed IC design has become ...
In this paper the main topologies of one-bit full adders, including the most interesting of those re...
In this paper, a high-speed low-power 18T CMOS full adder design featuring full-swing output is prop...
This paper discusses a rail to rail swing, mixed logic style 1-bit 28-transistor (28T) full-adder, b...
Full-adders are the core element of the complex arithmetic circuits like addition, multiplication, d...
Abstract--- In this paper we demonstrate the performance analysis of CMOS Full adder circuits in thi...
In this paper a modified Constant Delay Logic is been proposed to provide improved performance. Cont...
Abstract In this paper, we have designed an efficient full adder with high speed & low power. As...