Math coprocessors are vital components in modern computing to improve the overall performance of the system. The AMIR CPU is a homegrown softcore 32-bit CPU that can only handle integer numbers making it inadequate for high-performance real-time systems. The aim of this project is to design and develop a math coprocessor for the AMIR CPU that can perform addition, subtraction, multiplication and division on IEEE-754 single precision floating-point numbers. The design of the math coprocessor is devised and improved based on past works on IEEE 754 floating-point operations and math coprocessor implementations. The architecture of the proposed math coprocessor consists of a control unit with instruction decode, floating-point computation unit ...
In the last decades embedded systems have been challenged with more and more application variety, ea...
General purpose microprocessor based computers usu-ally speed their arithmetic processing performanc...
High speed computation is the need of today’s generation of Processors. To accomplish this maj...
The challenge in designing a floating-point arithmetic co-processor/processor for scientific and eng...
This paper discusses the implementation of a pipelined floating-point Coordinate Rotation Digital Co...
This paper describes a single precision floating point division based on Newton-Raphson computationa...
This paper presents different computational algorithms to implement single precision floating point ...
Arithmetic Logic Unit (ALU) is the essential part of the Central Processing Unit (CPU) core which pe...
A floating-point unit (FPU) colloquially is a math coprocessor, which is a part of a computer system...
This thesis presents the architecture and implementation of a high-performance floating-point coproc...
ISBN: 0818607742International audienceA description is given of a general VLSI architecture for the ...
A floating-point unit (FPU) colloquially is a math coprocessor, which is a part of a computer system...
Due to the character of the original source materials and the nature of batch digitization, quality ...
There is a growing demand for high-speed arithmetic co-processors for use in applications with compu...
Many computationally intensive scientific applications involve repetitive floating point operations ...
In the last decades embedded systems have been challenged with more and more application variety, ea...
General purpose microprocessor based computers usu-ally speed their arithmetic processing performanc...
High speed computation is the need of today’s generation of Processors. To accomplish this maj...
The challenge in designing a floating-point arithmetic co-processor/processor for scientific and eng...
This paper discusses the implementation of a pipelined floating-point Coordinate Rotation Digital Co...
This paper describes a single precision floating point division based on Newton-Raphson computationa...
This paper presents different computational algorithms to implement single precision floating point ...
Arithmetic Logic Unit (ALU) is the essential part of the Central Processing Unit (CPU) core which pe...
A floating-point unit (FPU) colloquially is a math coprocessor, which is a part of a computer system...
This thesis presents the architecture and implementation of a high-performance floating-point coproc...
ISBN: 0818607742International audienceA description is given of a general VLSI architecture for the ...
A floating-point unit (FPU) colloquially is a math coprocessor, which is a part of a computer system...
Due to the character of the original source materials and the nature of batch digitization, quality ...
There is a growing demand for high-speed arithmetic co-processors for use in applications with compu...
Many computationally intensive scientific applications involve repetitive floating point operations ...
In the last decades embedded systems have been challenged with more and more application variety, ea...
General purpose microprocessor based computers usu-ally speed their arithmetic processing performanc...
High speed computation is the need of today’s generation of Processors. To accomplish this maj...