We advocate the use of systolic design techniques to create custom hardware for Custom Computing Machines. We have developed a hardware genetic algorithm based on systolic arrays to illustrate the feasibility of the approach. The architecture is independent of the lengths of chromosomes used and can be scaled in size to accommodate different population sizes. An FPGA prototype design can process 16 million genes per second
In the late 1970's and early 1980's there was considerable interest in the use of so-called systolic...
A systolic array architecture consists of a grid of simple processing elements (PE) connected throug...
The field of FPGA design is ever-growing due to costs being lower than that of ASICs, as well as the...
We have designed and constructed a genetic algorithm engine using a systolic design methodology. The...
We have designed a highly parallel design for a simple genetic algorithm using a pipeline of systoli...
The paper presents a design for a hardware genetic algorithm which uses a pipeline of systolic array...
this paper. Details can be found in [4]. Of interest here is our decision on which domains are expre...
The authors present a systolic design for a simple GA mechanism which provides high throughput and u...
Genetic Algorithms (GAs) are commonly used search algorithms and there is an incentive in accelerate...
A parallel hardware random number generator for use with a VLSI genetic algorithm processing device ...
This work presents a hardware implementation of a Genetic Algorithm. Hardware Genetic Operators are ...
Developments in sequencing technology have drastically reduced the cost of DNA sequencing. The raw s...
SIGLEAvailable from British Library Document Supply Centre-DSC:DXN033833 / BLDSC - British Library D...
This work presents a new concept for finding the optimal values for the entire three fundamental des...
Evolvable hardware allows the generation of circuits that are adapted to specific problems by using ...
In the late 1970's and early 1980's there was considerable interest in the use of so-called systolic...
A systolic array architecture consists of a grid of simple processing elements (PE) connected throug...
The field of FPGA design is ever-growing due to costs being lower than that of ASICs, as well as the...
We have designed and constructed a genetic algorithm engine using a systolic design methodology. The...
We have designed a highly parallel design for a simple genetic algorithm using a pipeline of systoli...
The paper presents a design for a hardware genetic algorithm which uses a pipeline of systolic array...
this paper. Details can be found in [4]. Of interest here is our decision on which domains are expre...
The authors present a systolic design for a simple GA mechanism which provides high throughput and u...
Genetic Algorithms (GAs) are commonly used search algorithms and there is an incentive in accelerate...
A parallel hardware random number generator for use with a VLSI genetic algorithm processing device ...
This work presents a hardware implementation of a Genetic Algorithm. Hardware Genetic Operators are ...
Developments in sequencing technology have drastically reduced the cost of DNA sequencing. The raw s...
SIGLEAvailable from British Library Document Supply Centre-DSC:DXN033833 / BLDSC - British Library D...
This work presents a new concept for finding the optimal values for the entire three fundamental des...
Evolvable hardware allows the generation of circuits that are adapted to specific problems by using ...
In the late 1970's and early 1980's there was considerable interest in the use of so-called systolic...
A systolic array architecture consists of a grid of simple processing elements (PE) connected throug...
The field of FPGA design is ever-growing due to costs being lower than that of ASICs, as well as the...