FLOATING POINT PROCESSOR Search Results

80960MC

Abstract: C90FDAA2
Contextual Info: Floating-Point Operation 7 CHAPTER 7 FLOATING-POINT OPERATION This chapter describes the floating-point processing capabilities of the 80960MC processor. The subjects discussed include the real number data types, the execution environment for floating-point operations, the floating-point instructions, and fault and exception handling.

80960SB

Contextual Info: Floating-Point Instructions 1Q CHAPTER 10 FLOATING-POINT INSTRUCTIONS This chapter describes the floating-point processing capabilities of the 80960SB processor. The subjects discussed include the real number data types, the execution environment for floating-point operations, the floating-point instructions, and fault and exception handling.

i960TM

Abstract: 400921FB
Contextual Info: Floating-Point Operation 7 CHAPTER 7 FLOATING-POINT OPERATION This chapter describes the floating-point processing capabilities o f the i960 MC processor. The subjects discussed include the real number data types, the execution environment for floating-point operations, the floating-point instructions and fault and exception handling.

tms390

Abstract: L64811 L64814 TMS390C sun sparc pinout
Contextual Info: LSI LOGIC L64814 Floating-Point Unit FPU Preliminary Description The L64814 Floating-Point Unit (FPU) is a highperformance, CMOS implementation of the SPARC (Scalable Processor ARChitecture) FPU. The FPU combines a floating-point controller w ith a high-throughput floating-point processor

R3000A

Abstract: functional diagram of ALU R3010A block alu IDT79R3081 R3081 2873 R3010A Integrated Device Technology CFC-1
Contextual Info: R3010A Core RISC FLOATING POINT ACCELERATOR FPA CORE Integrated Device Technology, Inc. FEATURES: DESCRIPTION: • Hardware support of single- and double-precision operations: — Floating-Point Add — Floating-Point Subtract — Floating-Point Multiply

TMS34082

Abstract: CID20 TMS34082A TMS34082B-40 MSA15-0 TMS34020 emulator
Contextual Info: TMS34082A, TMS34082B GRAPHICS FLOATING-POINT PROCESSOR SCGS001A - D315Q, SEPTEMBER 1988 - REVISED SEPTEMBER 1992 • High-Performance Floating-Point RISC Processor Optimized for Graphics • TWo Operating Modes - Floating-Point Coprocessor for TMS34020 Graphics System Processor

D-10

Abstract: D-12 D-16 DSP96002 3F800000 DSP96002 APPLICATIONS DSP96002 fft
Contextual Info: APPENDIX D D.1 FLOATING-POINT NUMBER STORAGE AND ARITHMETIC D.1.1 General The IEEE standard for binary floating point arithmetic provides for the compatibility of floating-point numbers across all implementations which use the standard by defining bit-level encoding of floating-point numbers.

am29325

Abstract: H-14 AM29325GC WF023740 ScansUX970 TB000640
Contextual Info: Am29325 32-Bit Floating-Point Processor • Single VLSI device performs high-speed floating-point arithmetic - Floating-point addition, subtraction, and multiplication in a single clock cycle - Internal architecture supports sum-of-products, Newton-Raphson division

C-15

Abstract: C-16 DSP96002 DSP96002 fft
Contextual Info: APPENDIX C IEEE ARITHMETIC C.1 FLOATING-POINT NUMBER STORAGE AND ARITHMETIC C.1.1 General The IEEE standard for binary floating point arithmetic provides for the compatibility of floating-point numbers across all implementations which use the standard by defining bit-level encoding of floating-point numbers.

Contextual Info: NOV 2 i « # 1 Am29C325 CMOS 32-Bit Floating-Point Processor > 3 DISTINCTIVE CHARACTERISTICS Single VLSI device performs high-speed single­ precision floating-point arithmetic Floating-point addition, subtraction, and multiplication in a single clock cycle

Am29325

Abstract: H-14
Contextual Info: A m 29C 325 CMOS 32-Bit Floating-Point Processor FINAL DISTINCTIVE CHARACTERISTICS • • Single VLSI device performs high-speed single­ precision floating-point arithmetic Floating-point addition, subtraction, and multiplication in a single clock cycle

PD102

Abstract: ncl 039 Am29C325 Am29325 AM29C33 pin diagram of amd am2 processor th02 H-14 AM27S43 Am29CPL14
Contextual Info: A m 29C 325 CMOS 32-Bit Floating-Point Processor FINAL DISTINCTIVE CHARACTERISTICS • • Single VLSI device performs high-speed single­ precision floating-point arithmetic Floating-point addition, subtraction, and multiplication in a single clock cycle

Contextual Info: in te l CHAPTER 7 FLOATING-POINT UNIT The Intel Architecture Floating-Point Unit FPU provides high-performance floating-point processing capabilities. It supports the real, integer, and BCD-integer data types and the floating­ point processing algorithms and exception handling architecture defined in the IEEE 754 and

DX2-66

Abstract: 80C186 80C188 Intel 486 DX 486 SXSA
Contextual Info: DEVELOPMENT SOFTWARE LOG POINT TECHNOLOGIES, INC. SuperSpeed* Floating Point Math Products Log Point SuperSpeed Soft CoProcessors are compact, high performance numerical processors that constitute the first general purpose exponential floating point efp

5962R1023102VXC

Contextual Info: SMV320C6727B-SP www.ti.com SPRS675E – FEBRUARY 2013 – REVISED MAY 2013 Floating-Point Digital Signal Processor Check for Samples: SMV320C6727B-SP 1 Floating-Point Digital Signal Processor 1.1 Features 123 • 32- and 64-Bit 250-MHz Floating-Point DSPs

8086 opcode sheet

Abstract: 8086 opcode sheet free download 8086 mnemonic opcode intel 8086 internal architecture CACHE MEMORY FOR 8086 8086 opcode machine code intel 8086 opcode instruction 8086 mnemonic code 8086 opcode instruction set opcode 8086
Contextual Info: W 59 W 59.1 WAIT/FWAIT—Wait Opcode Instruction Description 9B WAIT Check pending unmasked floating-point exceptions. 9B FWAIT Check pending unmasked floating-point exceptions. Description Causes the processor to check for and handle pending, unmasked, floating-point exceptions before

5962R1023102VXC

Contextual Info: SMV320C6727B-SP www.ti.com SPRS675F – FEBRUARY 2013 – REVISED JUNE 2013 Floating-Point Digital Signal Processor Check for Samples: SMV320C6727B-SP 1 Floating-Point Digital Signal Processor 1.1 Features 123 • 32- and 64-Bit 250-MHz Floating-Point DSPs

Contextual Info: SMV320C6727B-SP www.ti.com SPRS675F – FEBRUARY 2013 – REVISED JUNE 2013 Floating-Point Digital Signal Processor Check for Samples: SMV320C6727B-SP 1 Floating-Point Digital Signal Processor 1.1 Features 123 • 32- and 64-Bit 250-MHz Floating-Point DSPs

SPRS675G

Contextual Info: SMV320C6727B-SP www.ti.com SPRS675G – FEBRUARY 2013 – REVISED JANUARY 2014 Floating-Point Digital Signal Processor Check for Samples: SMV320C6727B-SP 1 Floating-Point Digital Signal Processor 1.1 Features 123 • 32- and 64-Bit 250-MHz Floating-Point DSPs

Contextual Info: SMV320C6727B-SP www.ti.com SPRS675A – FEBRUARY 2013 – REVISED MARCH 2013 Floating-Point Digital Signal Processor Check for Samples: SMV320C6727B-SP 1 Floating-Point Digital Signal Processor 1.1 Features 123 • 32- and 64-Bit 250-MHz Floating-Point DSPs

SMV320C6727BHFHM

Abstract: SMV320C6727BHFHMPR 5962R1023102VXC SMV320C6727BHFHW 5962R1023101VXC
Contextual Info: SMV320C6727B-SP www.ti.com SPRS675F – FEBRUARY 2013 – REVISED JUNE 2013 Floating-Point Digital Signal Processor Check for Samples: SMV320C6727B-SP 1 Floating-Point Digital Signal Processor 1.1 Features 123 • 32- and 64-Bit 250-MHz Floating-Point DSPs

Contextual Info: SMV320C6727B-SP www.ti.com SPRS675A – FEBRUARY 2013 – REVISED MARCH 2013 Floating-Point Digital Signal Processor Check for Samples: SMV320C6727B-SP 1 Floating-Point Digital Signal Processor 1.1 Features 123 • 32- and 64-Bit 250-MHz Floating-Point DSPs

SPRS675G

Contextual Info: SMV320C6727B-SP www.ti.com SPRS675G – FEBRUARY 2013 – REVISED JANUARY 2014 Floating-Point Digital Signal Processor Check for Samples: SMV320C6727B-SP 1 Floating-Point Digital Signal Processor 1.1 Features 123 • 32- and 64-Bit 250-MHz Floating-Point DSPs

4D04

Contextual Info: TMS320C6743 SPRS565B – APRIL 2009 – REVISED JUNE 2011 www.ti.com TMS320C6743 Fixed/Floating-Point Digital Signal Processor Check for Samples: TMS320C6743 1 TMS320C6743 Fixed/Floating-Point Digital Signal Processor 1.1 Features 12 • Highlights – Up to 375-MHz FIxed/Floating-Point VLIW