Embedded applications can often demand stringent latency requirements. While high degrees of parallelism within custom FPGA-based accelerators may help to some extent, it may also be necessary to limit the precision used in the datapath to boost the operating frequency of the implementation. However, by reducing the precision, the engineer introduces quantisation error into the design. In this thesis, we describe an alternative circuit design methodology when considering trade-offs between accuracy, performance and silicon area. We compare two different approaches that could trade accuracy for performance. One is the traditional approach where the precision used in the datapath is limited to meet a target latency. The other is a propos...
This paper presents FloPoCo, a framework for easily designing custom arithmetic datapaths for FPGAs....
When the application context is ready to accept different levels of exactness in solutions and is su...
Microelectronic scaling has entered into the nanoscale era with tremendous capacity and performance ...
In this paper, we describe an alternative circuit design methodology when considering trade-offs bet...
We propose the first hardware implementation of standard arithmetic operators – addition, multiplica...
Computers have changed our lives beyond our own imagination in the past several decades. The continu...
Digital circuits have been traditionally designed to meet the worst PVT conditions to guarantee high...
Various error models are being used in simulation of voltage-scaled arithmetic units to examine appl...
Distributed arithmetic (DA) brings area and power benefits to digital designs relevant to the Intern...
Distributed arithmetic (DA) brings area and power benefits to digital designs relevant to the Intern...
Arithmetic approximation is used to decrease the latency of an arithmetic circuit by shortening the ...
This paper proposes a new formalism for layout-driven optimization of arithmetic datapaths. It is ba...
Abstract—Sometimes reducing the power dissipation of re-source constrained electronic systems, such ...
Artificial Intelligence (AI) hardware accelerators have seen tremendous developments in recent years...
Channel codes such as Low-Density Parity-Check (LDPC) codes may be employed in wireless communicatio...
This paper presents FloPoCo, a framework for easily designing custom arithmetic datapaths for FPGAs....
When the application context is ready to accept different levels of exactness in solutions and is su...
Microelectronic scaling has entered into the nanoscale era with tremendous capacity and performance ...
In this paper, we describe an alternative circuit design methodology when considering trade-offs bet...
We propose the first hardware implementation of standard arithmetic operators – addition, multiplica...
Computers have changed our lives beyond our own imagination in the past several decades. The continu...
Digital circuits have been traditionally designed to meet the worst PVT conditions to guarantee high...
Various error models are being used in simulation of voltage-scaled arithmetic units to examine appl...
Distributed arithmetic (DA) brings area and power benefits to digital designs relevant to the Intern...
Distributed arithmetic (DA) brings area and power benefits to digital designs relevant to the Intern...
Arithmetic approximation is used to decrease the latency of an arithmetic circuit by shortening the ...
This paper proposes a new formalism for layout-driven optimization of arithmetic datapaths. It is ba...
Abstract—Sometimes reducing the power dissipation of re-source constrained electronic systems, such ...
Artificial Intelligence (AI) hardware accelerators have seen tremendous developments in recent years...
Channel codes such as Low-Density Parity-Check (LDPC) codes may be employed in wireless communicatio...
This paper presents FloPoCo, a framework for easily designing custom arithmetic datapaths for FPGAs....
When the application context is ready to accept different levels of exactness in solutions and is su...
Microelectronic scaling has entered into the nanoscale era with tremendous capacity and performance ...