In this paper we present a framework for realizing arbitrary instruction set extensions (IE) that are identified post-silicon. The proposed framework has two components viz., an IE synthesis methodology and the architecture of a reconfigurable data-path for realization of the such IEs. The IE synthesis methodology ensures maximal utilization of resources on the reconfigurable data-path. In this context we present the techniques used to realize IEs for applications that demand high throughput or those that must process data streams. The reconfigurable hardware called HyperCell comprises a reconfigurable execution fabric. The fabric is a collection of interconnected compute units. A typical use case of HyperCell is where it acts as a co-proce...
Custom instruction set extensions (ISEs) are added to an extensible base processor to provide applic...
This paper proposes an approach to tune embedded processor datapaths toward a specific application, ...
Grunewald M, Le DK, Kastens U, et al. Network application driven instruction set extensions for embe...
In this paper we present a framework for realizing arbitrary instruction set extensions (IE) that ar...
In this paper we present HyperCell as a reconfigurable datapath for Instruction Extensions (IEs). Hy...
Application-specific instructions can significantly improve the performance, energy-efficiency, and ...
Over the past years, a considerable amount of effort has been devoted to the definition and implemen...
Over the past years, a considerable amount of effort has been devoted to the defin-ition and impleme...
Extensible processors allow customization for an application by extending the core instruction set a...
Over the past years, a considerable amount of effort has been devoted to the definition and implemen...
Abstract. Extensible processors allow customization for an application by extending the core instruc...
Reconfigurable computing devices have achieved substantial performance improvements over conventiona...
In this thesis we describe a new generic approach for accelerating software functions using a reconf...
This paper presents a novel, non-standard set of vector instruction types for exploring custom SIMD ...
Application-specific extensions to the computational capabilities of a processor provide an efficien...
Custom instruction set extensions (ISEs) are added to an extensible base processor to provide applic...
This paper proposes an approach to tune embedded processor datapaths toward a specific application, ...
Grunewald M, Le DK, Kastens U, et al. Network application driven instruction set extensions for embe...
In this paper we present a framework for realizing arbitrary instruction set extensions (IE) that ar...
In this paper we present HyperCell as a reconfigurable datapath for Instruction Extensions (IEs). Hy...
Application-specific instructions can significantly improve the performance, energy-efficiency, and ...
Over the past years, a considerable amount of effort has been devoted to the definition and implemen...
Over the past years, a considerable amount of effort has been devoted to the defin-ition and impleme...
Extensible processors allow customization for an application by extending the core instruction set a...
Over the past years, a considerable amount of effort has been devoted to the definition and implemen...
Abstract. Extensible processors allow customization for an application by extending the core instruc...
Reconfigurable computing devices have achieved substantial performance improvements over conventiona...
In this thesis we describe a new generic approach for accelerating software functions using a reconf...
This paper presents a novel, non-standard set of vector instruction types for exploring custom SIMD ...
Application-specific extensions to the computational capabilities of a processor provide an efficien...
Custom instruction set extensions (ISEs) are added to an extensible base processor to provide applic...
This paper proposes an approach to tune embedded processor datapaths toward a specific application, ...
Grunewald M, Le DK, Kastens U, et al. Network application driven instruction set extensions for embe...