CSE 431. Computer Architecture

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Transcript CSE 431. Computer Architecture

CSIE30300 Computer Architecture
Unit 01: Introduction
Hsin-Chou Chi
[Adapted from material by Patterson@UCB and Irwin@PSU]
Where is the Market?
Millions of Computers
1200
1122
1000
892
Embedded
Desktop
Servers
862
800
600
488
400 290
200
0
93
3
1998
114
3
1999
135
4
2000
129
4
2001
131
5
2002
Instruction Set Architecture (ISA)

ISA: An abstract interface between the hardware and the
lowest level software of a machine that encompasses all
the information necessary to write a machine language
program that will run correctly, including instructions,
registers, memory access, I/O, and so on.

Enables implementations of varying cost and performance to run
identical software
ISA Type Sales
Other
SPARC
Hitachi SH
PowerPC
Motorola 68K
MIPS
IA-32
ARM
1400
Millions of Processor
1200
1000
800
600
400
200
0
1998
1999
2000
2001
2002
Moore’s Law

In 1965, Gordon Moore predicted that the number of
transistors that can be integrated on a die would double
every 18 to 24 months (i.e., grow exponentially with
time).

Amazingly visionary – million transistor/chip barrier was
crossed in the 1980’s.



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
2300 transistors, 1 MHz clock (Intel 4004) - 1971
16 Million transistors (Ultra Sparc III)
42 Million transistors, 2 GHz clock (Intel Xeon) – 2001
55 Million transistors, 3 GHz, 130nm technology, 250mm2 die
(Intel Pentium 4) - 2004
140 Million transistor (HP PA-8500)
Processor Performance Increase
Performance (SPEC Int)
10000
Intel Pentium 4/3000
DEC Alpha 21264A/667
DEC Alpha 21264/600
Intel Xeon/2000
1000
DEC Alpha 4/266
100
DEC AXP/500
DEC Alpha 5/500
DEC Alpha 5/300
IBM POWER 100
HP 9000/750
10
IBM RS6000
SUN-4/260
MIPS M2000
MIPS M/120
1
1987
1989
1991
1993
1995
Year
1997
1999
2001
2003
DRAM Capacity Growth
512M
256M
128M
1000000
64M
Kbit capacity
100000
16M
10000
4M
1M
1000
256K
64K
100
16K
10
1976 1978 1980 1982 1984 1986 1988 1990 1992 1994 1996 1998 2000 2002
Year of introduction
Impacts of Advancing Technology

Processor


logic capacity:
performance:
increases about 30% per year
2x every 1.5 years
ClockCycle = 1/ClockRate
500 MHz ClockRate = 2 nsec ClockCycle
1 GHz ClockRate = 1 nsec ClockCycle
4 GHz ClockRate = 250 psec ClockCycle

Memory




DRAM capacity: 2x every 1.5 years, now 2x every 2 years
memory speed: 1.5x every 10 years
cost per bit:
decreases about 25% per year
Disk

capacity:
increases about 60% per year
Example Machine Organization

Workstation design target



25% of cost on processor
25% of cost on memory (minimum memory size)
Rest on I/O devices, power supplies, box
Computer
CPU
Memory
Devices
Control
Input
Datapath
Output
PC Motherboard Closeup
Inside the Pentium 4 Processor Chip
MIPS R3000 Instruction Set Architecture

Registers
Instruction Categories




Load/Store
Computational
Jump and Branch
Floating Point
-


R0 - R31
coprocessor
PC
HI
Memory Management
Special
LO
3 Instruction Formats: all 32 bits wide
OP
rs
rt
OP
rs
rt
OP
rd
sa
immediate
jump target
Q: How many already familiar with MIPS ISA?
funct