SIMM: Definition from Answers.com

30- (top) and 72-pin (bottom) SIMMs. Early 30-pin modules commonly had either 256 KB or 1 MB of memory.

A SIMM, or single in-line memory module, is a type of memory module containing random access memory used in computers from the early 1980s to the late 1990s. It differs from a dual in-line memory module (DIMM), the most predominant form of memory module today, in that the contacts on a SIMM are redundant on both sides of the module. SIMMs were standardised under the JEDEC JESD-21C standard.

30-pin SIMM, 256kB capacity

Most early PC motherboards (8088-based PCs and XTs) used socketed DIP chips. With the introduction of 286-based PC/ATs, which could use larger amounts of memory, memory modules evolved to save motherboard space and to ease memory expansion. Instead of plugging in eight or nine single DIP DRAM chips, only one additional memory module was needed to increase the memory of the computer. A few 286-based computers used (often non-standard) memory modules like SIPP memory (single in-line pin package). The SIPP's 30 pins often bent or broke during installation, which is why they were quickly replaced by SIMMs which used contact plates rather than pins.

SIMMs were invented and patented by Wang Laboratories. Wang invented what was to become the basic memory module, now known as a SIMM (single in-line memory module) in 1983. The original memory modules were built upon ceramic and had pins. Later the pins were removed and the modules were built on standard PCB material.

The first variant of SIMMs has 30 pins and provides 9 bits of data. They were used in 286, 386, 486 and Wang VS systems.

The second variant of SIMMs has 72 pins and provides 32 bits of data (36 bits in parity versions). These appeared on 486, Pentium, Pentium Pro and even some Pentium II systems. By the mid 90s, 72-pin SIMMs had replaced 30-pin SIMMs.

Non-IBM PC computers such as UNIX workstations may use proprietary non-standard SIMMs. The Macintosh IIfx use proprietary non-standard SIMMs with 64 pins.

DRAM technologies used in SIMMs include EDO and FPM.

Due to the differing data bus widths of the memory modules and some processors, sometimes several modules must be installed in identical pairs or in identical groups of four to fill a memory bank. The general rule of thumb is a 286 or 386SX system (data bus width of 16 bits) would require two 30-pin SIMMs for a memory bank. On 386DX or 486 systems (data bus width of 32 bits), either four 30-pin SIMMs or one 72-pin SIMM are required for one memory bank. On Pentium systems (data bus width of 64 bits), two 72-pin SIMMs are required. However, some Pentium systems have support for a "half bank mode", in which the data bus would be shortened to only 32-bits to allow operation of a single SIMM. Conversely, some 386 and 486 systems use what is known as "memory interleaving", which requires twice as many SIMMs and effectively doubles the bandwidth.

The earliest SIMM sockets were conventional push-type sockets. These were soon replaced by ZIF sockets in which the SIMM was inserted and rotated until it locked into place. To install a SIMM, the module must be placed in the socket at an angle, then rotated (angled) into position. To remove one, the two metal or plastic clips at each end must be pulled to the side, then the SIMM must be tilted back and pulled out. The earlier sockets used plastic retainer clips which were found to break, so steel clips replaced them.

Some SIMMs support presence detect (PD). Connections are made to some of the pins that encode the capacity and speed of the SIMM, so that compatible equipment can detect the properties of the SIMM. PD SIMMs can be used in equipment which does not support PD; the information is ignored. Standard SIMMs can easily be converted to support PD by fitting jumpers, if the SIMMs have solder pads to do so, or by soldering wires on^[1].

1 30-pin SIMMs
2 72-pin SIMMs
3 Proprietary SIMMs
- 3.1 GVP 64-pin
- 3.2 Apple 64-pin
4 See also
5 References
6 External links

30-pin SIMMs

30-pin SIMM, 256 KiB capacity

Standard sizes: 256 KB, 1 MB, 4 MB, 16 MB

30-pin SIMMS have 12 address lines, which can provide a total of 24 address bits. With an 8 bit data width, this leads to an absolute maximum capacity of 16 MiB.

30-pin SIMM Memory Module
Pin #	Name	Signal Description	Pin #	Name	Signal Description
1	V_CC	+5VDC	16	DQ4	Data 4
2	/CAS	Column Address Strobe	17	A8	Address 8
3	DQ0	Data 0	18	A9	Address 9
4	A0	Address 0	19	A10	Address 10
5	A1	Address 1	20	DQ5	Data 5
6	DQ1	Data 1	21	/WE	Write Enable
7	A2	Address 2	22	V_SS	Ground
8	A3	Address 3	23	DQ6	Data 6
9	V_SS	Ground	24	A11	Address 11
10	DQ2	Data 2	25	DQ7	Data 7
11	A4	Address 4	26	QP^*	Data parity out
12	A5	Address 5	27	/RAS	Row Address Strobe
13	DQ3	Data 3	28	/CASP^*	Parity Column Address Strobe
14	A6	Address 6	29	DP^*	Data parity in
15	A7	Address 7	30	V_CC	+5VDC

^* Pins 26, 28 and 29 are not connected on non-parity SIMMs.

72-pin SIMMs

72-pin EDO DRAM SIMM

Standard sizes: 1 MiB, 2 MiB, 4 MiB, 8 MiB, 16 MiB, 32 MiB, 64 MiB, 128 MiB

With 12 address lines, which can provide a total of 24 address bits, two ranks of chips, and 32 bit data output, the absolute maximum capacity is 2²⁷ = 128 MiB.

5V 72-pin SIMM Memory Module
Pin #	Name	Signal Description	Pin #	Name	Signal Description
1	V_SS	Ground	37	MDP1^*	Data Parity 1 (MD8..15)
2	MD0	Data 0	38	MDP3^*	Data Parity 3 (MD24..31)
3	MD16	Data 16	39	V_SS	Ground
4	MD1	Data 1	40	/CAS0	Column Address Strobe 0
5	MD17	Data 17	41	/CAS2	Column Address Strobe 2
6	MD2	Data 2	42	/CAS3	Column Address Strobe 3
7	MD18	Data 18	43	/CAS1	Column Address Strobe 1
8	MD3	Data 3	44	/RAS0	Row Address Strobe 0
9	MD19	Data 19	45	/RAS1^†	Row Address Strobe 1
10	V_CC	+5 VDC	46	NC	Not Connected
11	NU [PD5^#]	Not Used [Presence Detect 5 (3v3)]	47	/WE	Read/Write Enable
12	MA0	Address 0	48	NC [/ECC^#]	Not Connected [ECC presence (if grounded) (3v3)]
13	MA1	Address 1	49	MD8	Data 8
14	MA2	Address 2	50	MD24	Data 24
15	MA3	Address 3	51	MD9	Data 9
16	MA4	Address 4	52	MD25	Data 25
17	MA5	Address 5	53	MD10	Data 10
18	MA6	Address 6	54	MD26	Data 26
19	MA10	Address 10	55	MD11	Data 11
20	MD4	Data 4	56	MD27	Data 27
21	MD20	Data 20	57	MD12	Data 12
22	MD5	Data 5	58	MD28	Data 28
23	MD21	Data 21	59	V_CC	+5 VDC
24	MD6	Data 6	60	D29	Data 29
25	MD22	Data 22	61	MD13	Data 13
26	MD7	Data 7	62	MD30	Data 30
27	MD23	Data 23	63	MD14	Data 14
28	MA7	Address 7	64	MD31	Data 31
29	MA11	Address 11	65	MD15	Data 15
30	V_CC	+5 VDC	66	NC [/EDO^#]	Not Connected [EDO presence (if grounded) (3v3)]
31	MA8	Address 8	67	PD1^x	Presence Detect 1
32	MA9	Address 9	68	PD2^x	Presence Detect 2
33	/RAS3^†	Row Address Strobe 3	69	PD3^x	Presence Detect 3
34	/RAS2	Row Address Strobe 2	70	PD4^x	Presence Detect 4
35	MDP2^*	Data Parity 2 (MD16..23)	71	NC [PD(ref)^#]	Not Connected [Presence Detect (ref) (3v3)]
36	MDP0^*	Data Parity 0 (MD0..7)	72	V_SS	Ground

^* Pins 35, 36, 37 and 38 are not connected on non-parity SIMMs. ^[2]

^†/RAS1 and /RAS3 are only used on two-rank SIMMS: 2, 8, 32, and 128 MiB.

^# These lines are only defined on 3.3V modules.

^x Presence Detect signals are deteiled in JEDEC Standard.

Proprietary SIMMs

GVP 64-pin

Several CPU cards from Great Valley Products for the Commodore Amiga used special 64-pin SIMMs (32 bits wide, 1, 4 or 16 MB, 60 ns).

Apple 64-pin

64-pin were used in Apple Macintosh IIfx computers to allow overlapping read/write cycles (1, 4, 8, 16 MB, 80 ns).^[3]

References

^ Making Standard SIMMs Work – Memory Upgrade on the HP LaserJet 6MP/5MP Article on fitting jumpers to add Presence Detect to standard SIMMs
^ JEDEC Standard No. 21-C, Section 4.2.2 "72 pin SIMM DRAM Module Family"
^ Macintosh IIfx

External links

General SIMM Installation Guide

This entry is from Wikipedia, the leading user-contributed encyclopedia. It may not have been reviewed by professional editors (see full disclaimer)

Donate to Wikimedia

Meaning	Category
Singapore Institute of Materials Management	Community->Non-Profit Organizations
Single In-line Memory Module	Computing->Hardware Governmental->Military Computing->Networking
Single Inline Memory Module	Computing->Security

simm	post script simm
72 Pin Simm	80 pins simm

		Sci-Tech Dictionary. McGraw-Hill Dictionary of Scientific and Technical Terms. Copyright © 2003, 1994, 1989, 1984, 1978, 1976, 1974 by McGraw-Hill Companies, Inc. All rights reserved. Read more
		Dictionary. The American Heritage® Dictionary of the English Language, Fourth Edition Copyright © 2007, 2000 by Houghton Mifflin Company. Updated in 2007. Published by Houghton Mifflin Company. All rights reserved. Read more
		Computer Desktop Encyclopedia. THIS COPYRIGHTED DEFINITION IS FOR PERSONAL USE ONLY. All other reproduction is strictly prohibited without permission from the publisher. © 1981-2009 Computer Language Company Inc. All rights reserved. Read more
		Abbreviations. STANDS4.com - The source for acronyms and abbreviations. Copyright ©2004-2007 STANDS4 LLC. All rights reserved. Read more
		Wikipedia. This article is licensed under the Creative Commons Attribution/Share-Alike License. It uses material from the Wikipedia article "SIMM". Read more
		Translations. Copyright © 2007, WizCom Technologies Ltd. All rights reserved. Read more

	SIMM converter (technology)
	EOS memory (technology)
	Reanimator: Black Market Science (1998 Album by Various Artists)

	What is SIMM stands for? Read answer...
	Who is Juliet Simms? Read answer...
	What language are the Simms speaking? Read answer...

	What is SIMM and DIMM?
	Phil simms siblings?
	Phil Simms drafted?

SIMM

Contents