FIC m785 서비스 매뉴얼
Hardware Functional Overview
FIC M785 Service Manual
4-5
•
Supported by the Intel
® 850 and Intel® 845 chipset families
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Compatible with existing Intel
® Architecture-based software
•
Streaming SIMD Extensions 2 (SSE2) Instructions
•
Intel
® MMX™ media enhancement technology
•
Integrated caches include 12-K micro-op trace cache and 8-KB L1 data cache in
addition to L2 cache memory
addition to L2 cache memory
•
Support for uni-processor designs
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Based upon Intel's leading 0.13 micron and 0.18 micron manufacturing process
technologies. 0.13 micron process with speeds from 1.80A GHz to 2.80 GHz and
0.18 micron process with speeds 1.70 GHz to 1.90 GHz.
technologies. 0.13 micron process with speeds from 1.80A GHz to 2.80 GHz and
0.18 micron process with speeds 1.70 GHz to 1.90 GHz.
Intel
’s Most Advanced, Most Powerful Processor for Desktop PCs and
Entry Level Workstations
The Pentium 4 processor at 1.70, 1.80, 1.80A, 1.90, 2A, 2.20, 2.26, 2.40, 2.40B, 2.50, 2.53,
2.60, 2.66 and 2.80 GHz is designed for desktop PCs, as well as for entry-level workstations.
The processor is binary-compatible with previous generation Intel Architecture processors.
Intel
® NetBurst™ Microarchitecture
Intel NetBurst microarchitecture delivers a number of innovative features including hyper-
pipelined technology, 533-MHz or 400-MHz system bus, Execution Trace Cache, and Rapid
Execution Engine, as well as a number of enhanced features such as Advanced Transfer
Cache, Advanced Dynamic Execution, enhanced floating-point and multimedia unit, and
Streaming SIMD Extensions 2 (SSE2). Many of these innovations and advances were made
possible with improvements in processor technology, process technology, and circuit design
and could not previously be implemented in high-volume, manufacturable solutions. The
features and resulting benefits of the microarchitecture are defined below.
Hyper-Pipelined Technology
The hyper-pipelined technology of the Intel NetBurst microarchitecture doubles the pipeline
depth compared to the P6 microarchitecture used on today's Pentium III processors. One of
the key pipelines, the branch prediction / recovery pipeline, is implemented in 20 stages in the
Intel NetBurst microarchitecture, compared to 10 stages in the P6 microarchitecture. This
technology significantly increases the performance, frequency, and scalability of the
processor.
533-MHz or 400-MHz System Bus
The Pentium 4 processor's 533-MHz system bus supports Intel's highest performance
desktop processor by delivering 4.2 GB of data-per-second into and out of the processor. This
is accomplished through a physical signaling scheme of quad pumping the data transfers over
a 133-MHz clocked system bus and a buffering scheme allowing for sustained 533-MHz data
transfers. The Pentium 4 processor's 400-MHz system bus supports Intel's performance
desktop processor by delivering 3.2 GB of data-per-second into and out of the processor. This
is accomplished through a physical signaling scheme of quad pumping the data transfers over
a 100-MHz clocked system bus and a buffering scheme allowing for sustained 400-MHz data
transfers. This compares to 1.06 GB/s delivered on the Pentium III processor's 133-MHz
system bus.
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