Reducing the power dissipation of parallel multipliers is important in the design of digital signal processing systems. In many of these systems, the products of parallel multipliers are rounded to avoid growth in word size. The power dissipation and area of rounded parallel multipliers can be signi cantly reduced by a technique known as truncated multiplication. With this technique, the least signi cant columns of the multiplication matrix are not used. Instead, the carries generated by these columns are estimated. This estimate is added with the most signi cant columns to produce the rounded product. This paper presents the design and implementation of parallel truncated multipliers. Simulations indicate that truncated parallel multiplier...
A multiplier is one of the key hardware blocks in most digital and high performance systems such as ...
Abstract—This paper proposes a novel adaptive pseudo-carry compen-sation truncation (PCT) scheme, wh...
Truncated multipliers compute the n most-significant bits of the n × n bits product. This paper focu...
peer-reviewedMultipliers are present in almost all Digital Signal Processing systems. They are area...
Truncated multiplication can be used to significantly reduce power dissipation for applications that...
Multiplications occur frequently in digital signal processing systems, communication systems, and ot...
When reducing the power dissipation of resource constrained electronic systems is a priority, some p...
High-speed arithmetic units in modern processors are expected to support multiplication operations w...
This paper presents a multiplier power reduction technique for low-power DSP applications through u...
The design of high-speed, area-efficient and low power multiplier is essential for the VLSI implemen...
This paper presents Field Programmable Gate Array (FPGA) implementation of standard and truncated mu...
The radix-64 encoding scheme was used to reduce the number of partial products in the 54 x 54 CMOS p...
In the design of digital signal processing systems, where single-precision results are required, the...
High speed and competent addition of various operands is an essential operation in the design any co...
The progress of high-speed, low-power, and regular-layout multipliers is a latest in research. The m...
A multiplier is one of the key hardware blocks in most digital and high performance systems such as ...
Abstract—This paper proposes a novel adaptive pseudo-carry compen-sation truncation (PCT) scheme, wh...
Truncated multipliers compute the n most-significant bits of the n × n bits product. This paper focu...
peer-reviewedMultipliers are present in almost all Digital Signal Processing systems. They are area...
Truncated multiplication can be used to significantly reduce power dissipation for applications that...
Multiplications occur frequently in digital signal processing systems, communication systems, and ot...
When reducing the power dissipation of resource constrained electronic systems is a priority, some p...
High-speed arithmetic units in modern processors are expected to support multiplication operations w...
This paper presents a multiplier power reduction technique for low-power DSP applications through u...
The design of high-speed, area-efficient and low power multiplier is essential for the VLSI implemen...
This paper presents Field Programmable Gate Array (FPGA) implementation of standard and truncated mu...
The radix-64 encoding scheme was used to reduce the number of partial products in the 54 x 54 CMOS p...
In the design of digital signal processing systems, where single-precision results are required, the...
High speed and competent addition of various operands is an essential operation in the design any co...
The progress of high-speed, low-power, and regular-layout multipliers is a latest in research. The m...
A multiplier is one of the key hardware blocks in most digital and high performance systems such as ...
Abstract—This paper proposes a novel adaptive pseudo-carry compen-sation truncation (PCT) scheme, wh...
Truncated multipliers compute the n most-significant bits of the n × n bits product. This paper focu...