Implementation of binary to floating point converter using HDL

机译：使用HDL实现二进制到浮点转换器

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Computation with floating point arithmetic is an indispensable task in many VLSI applications and accounts for almost half of the scientific operation. Also adder is the core element of complex arithmetic circuits, in which inputs should be given in standard IEEE 754 format. The main objective of the work is to design and implement a binary to IEEE 754 floating point converter for representing 32 bit single precision floating point values. The converter at the input side of the existing floating point adder/subtractor module helps to improve the overall design. The modules are written using Very High Speed Integrated Circuit(VHSIC) Hardware Description Language (VHDL), and are then synthesized for Xilinx Virtex E FPGA using Xilinx Integrated Software Environment(ISE) design suite 10.1.

机译：在许多VLSI应用中，浮点算术运算是必不可少的任务，几乎占科学运算的一半。加法器是复杂算术电路的核心元素，其中输入应以标准IEEE 754格式给出。这项工作的主要目的是设计和实现一种二进制格式的IEEE 754浮点转换器，用于表示32位单精度浮点值。现有浮点加法器/减法器模块输入侧的转换器有助于改善整体设计。这些模块使用超高速集成电路（VHSIC）硬件描述语言（VHDL）编写，然后使用Xilinx集成软件环境（ISE）设计套件10.1为Xilinx Virtex E FPGA进行合成。

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来源
《2013 IEEE International Multi Conference on Automation, Computing, Control, Communication and Compressed Sensing》|2013年|461-464|共4页
会议地点 Kottayam(IN)
作者
Cherian Reshma; Thomas Nisha; Shyju Y.;
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作者单位

Electronics and Communication Dept., Sree Narayana Gurukulam College of Engineering, Ernakulam, Indiac;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
Floating point arithmetic; IEEE 754 format; VHDL; Xilinx; single precision;

机译：浮点运算; IEEE 754格式; VHDL; Xilinx;单精度;;

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4. Implementation of binary to floating point converter using HDL [C] . Cherian Reshma, Thomas Nisha, Shyju Y. IEEE International Multi Conference on Automation, Computing, Control, Communication and Compressed Sensing . 2013

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8. Converter for Generating Pulse-Position- Modulation Telemetry Data from Binary-Digital Tapes (Binary-TO- P P M Converter [R] . Stattel, R. J. 1968

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Implementation of binary to floating point converter using HDL

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