Truncated multiplication can be used to significantly reduce power dissipation for applications that do not require correctly rounded results. This paper presents a power efficient method for designing floating point multipliers that can perform either correctly rounded IEEE compliant multiplication or truncated multiplication, based on an input control signal. Compared to conventional IEEE floating point multipliers, these multipliers require only a small amount of additional area and delay, yet provide a significant reduction in power dissipation for applications that do not require IEEE compliant results
A multiplier is one of the key hardware blocks in most digital and high performance systems such as ...
This paper presents a multiplier power reduction technique for low-power DSP applications through u...
"The need to support various digital signal processing (DSP) and classification applications on...
Reducing the power dissipation of parallel multipliers is important in the design of digital signal ...
peer-reviewedMultipliers are present in almost all Digital Signal Processing systems. They are area...
When reducing the power dissipation of resource constrained electronic systems is a priority, some p...
In the conventional floating point multipliers, the rounding stage is usually constructed by using a...
Floating point multiplication is a critical part in high dynamic range and computational intensive d...
High-speed arithmetic units in modern processors are expected to support multiplication operations w...
IEEE-754 rounding support increases the critical delay for floating-point multipliers. Except round-...
Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, p...
Multiplication is one of the fundamental operations used in most arithmetic computing systems. Multi...
Approximate computing is a new approach that can help to reduce power consumption in error-resilient...
Modern floating-point multipliers perform rounding in compliance with the IEEE 754 standard. Since r...
Abstract Reducing power consumption is a major challenge in developing integrated processors for sma...
A multiplier is one of the key hardware blocks in most digital and high performance systems such as ...
This paper presents a multiplier power reduction technique for low-power DSP applications through u...
"The need to support various digital signal processing (DSP) and classification applications on...
Reducing the power dissipation of parallel multipliers is important in the design of digital signal ...
peer-reviewedMultipliers are present in almost all Digital Signal Processing systems. They are area...
When reducing the power dissipation of resource constrained electronic systems is a priority, some p...
In the conventional floating point multipliers, the rounding stage is usually constructed by using a...
Floating point multiplication is a critical part in high dynamic range and computational intensive d...
High-speed arithmetic units in modern processors are expected to support multiplication operations w...
IEEE-754 rounding support increases the critical delay for floating-point multipliers. Except round-...
Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, p...
Multiplication is one of the fundamental operations used in most arithmetic computing systems. Multi...
Approximate computing is a new approach that can help to reduce power consumption in error-resilient...
Modern floating-point multipliers perform rounding in compliance with the IEEE 754 standard. Since r...
Abstract Reducing power consumption is a major challenge in developing integrated processors for sma...
A multiplier is one of the key hardware blocks in most digital and high performance systems such as ...
This paper presents a multiplier power reduction technique for low-power DSP applications through u...
"The need to support various digital signal processing (DSP) and classification applications on...