In many applications, subsequent data manipulations differ only in a small set of parameter values. Because of their reconfigurability, FPGAs (field programmable gate arrays) can be configured with a specialized circuit each time the parameter values change. This technique is called dynamic data folding. The specialized circuits are smaller and faster than their generic counterparts. However; the overhead involved in generating the configurations for the specialized circuits at runtime is very large when conventional tools are used, and this overhead will in many cases negate the benefit of using optimized configurations. This article introduces an automatic method for generating runtime parameterizable configurations from arbitrary Boolean...
Dynamic hardware generation reduces the number of FPGA resources needed and speeds up an application...
In many applications, subsequent tasks differ only in a specific set of parameters. Because of their...
As the complexity of integrated circuit systems increases, automated hardware design from higher-lev...
In many applications, subsequent data manipulations differ only in a small set of parameter values. ...
In many applications, subsequent data manipulations differ only in a small set of parameter values. ...
The configuration of an FPGA is a process of customizing the functionality implemented by the FPGA f...
Parameterizable configurations are regular FPGA configurations in which some of the configuration bi...
Dynamic Circuit Specialization is used to optimize the implementation of a parameterized application...
Dynamic Circuit Specialization (DCS) is a technique used to implement FPGA applications where some o...
Adaptive embedded systems are currently investigated as an answer to more stringent requirements on ...
Parameterised configurations are FPGA configuration bitstreams of which the bits are defined as func...
This thesis examines the problem of reducing reconfiguration time of an island-style FPGA at its con...
International audienceThe aim of partially and dynamically reconfigurable hardware is to provide an ...
Dynamic Circuit Specialization is used to optimize the implementation of a parameterized application...
Dynamic hardware generation reduces the number of FPGA resources needed and speeds up the applicatio...
Dynamic hardware generation reduces the number of FPGA resources needed and speeds up an application...
In many applications, subsequent tasks differ only in a specific set of parameters. Because of their...
As the complexity of integrated circuit systems increases, automated hardware design from higher-lev...
In many applications, subsequent data manipulations differ only in a small set of parameter values. ...
In many applications, subsequent data manipulations differ only in a small set of parameter values. ...
The configuration of an FPGA is a process of customizing the functionality implemented by the FPGA f...
Parameterizable configurations are regular FPGA configurations in which some of the configuration bi...
Dynamic Circuit Specialization is used to optimize the implementation of a parameterized application...
Dynamic Circuit Specialization (DCS) is a technique used to implement FPGA applications where some o...
Adaptive embedded systems are currently investigated as an answer to more stringent requirements on ...
Parameterised configurations are FPGA configuration bitstreams of which the bits are defined as func...
This thesis examines the problem of reducing reconfiguration time of an island-style FPGA at its con...
International audienceThe aim of partially and dynamically reconfigurable hardware is to provide an ...
Dynamic Circuit Specialization is used to optimize the implementation of a parameterized application...
Dynamic hardware generation reduces the number of FPGA resources needed and speeds up the applicatio...
Dynamic hardware generation reduces the number of FPGA resources needed and speeds up an application...
In many applications, subsequent tasks differ only in a specific set of parameters. Because of their...
As the complexity of integrated circuit systems increases, automated hardware design from higher-lev...