Electricity: electrical systems and devices – Housing or mounting assemblies with diverse electrical... – For electronic systems and devices
Reexamination Certificate
1996-10-31
2001-10-30
Sparks, Donald (Department: 2841)
Electricity: electrical systems and devices
Housing or mounting assemblies with diverse electrical...
For electronic systems and devices
C361S760000, C361S801000, C361S807000, C361S809000, C257S678000, C257S723000
Reexamination Certificate
active
06310782
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to memory modules. More particularly, the present invention relates to memory module form factors that maximize memory density.
2. Description of Related Art
One aspect of the evolution of computer systems is that operating systems and software have become more memory-intensive. In fact, this particular trend has become so marked that the memory industry has had a very difficult time keeping up with the demand, both from a supply and development standpoint.
Dynamic Random Access Memory (DRAM) semiconductor chips are the primary components used in memory systems. DRAM's are generally made using complimentary metal oxide silicon technology ranging from 0.8 to 0.3 microns in size, with the smaller sizes becoming increasingly prevalent.
While DRAM's have been getting smaller in size, their density has been increasing rapidly. For example, several years ago, 1 Mb and 4 Mb DRAM chips were standard. Today, 16 Mb chips are standard; 64 Mb chips are on the horizon; and 256 Mb and 1 Gb chips are being developed and made.
Also, DRAM packaging has been evolving. Several years ago, memory was pin throughhole packaged. Today, with the common use of surface mount technology, small outline integrated circuit (SOIC), thin small outline package (TSOP), and like configurations are most common.
Memory modules serve at least two functions. One function is to make DRAM's compatible with the system bus organization, that is, reflective of the system designer' desire to match the processor bus size. Second, memory modules allow for easy upgrades.
Today, memory modules come in four basic types: one-byte modules (30-pin single-in-line memory modules (SIMMS), four-byte modules (72-pin SIMMs or 72-pin small outline, dual in-line memory modules (SODIMMs), eight-byte modules (168-pin DIMMs), and custom modules (e.g., HP 9000 workstation memory). SIMMs were first developed by Wang in the mid-1970's in conjunction with Molex, the connector supplier for Wang's “office assistant” word processor. While SIMMs have, generally, 30 or 72 contacts that are the same on both sides of the “card,” DIMMs have two (dual) rows of contacts, one row on each side of the card. With the additional pins, a computer can retrieve information from DIMMs 64 bits at a time instead of the 32 or 16-bit transfers usual with SIMMs. SODIMMs have 72-pins, making them relatively compact and thus particularly well suited for memory expansion in portables.
Notwithstanding all of the foregoing developments, there still remains an urgent need to continue to develop methods and apparatus for maximizing DRAM density within the space constraints of existing computer systems. To the extent this has been attempted or effected by manipulating the form of memory modules, system designers have made modules higher or taller. In many systems there is a limit as to how high or tall such a module can be, limiting usefulness of this approach. It is a shortcoming and deficiency of the prior art that heretofore there has not been envisioned a way to maximize DRAM density in systems, by manipulating the form of memory modules in a way that does not make them too tall to fit in many systems.
SUMMARY OF THE INVENTION
The present invention overcomes the shortcomings and deficiencies mentioned above by providing a system including a memory module formed of a first portion having a first side that directly connects to a mount in the system, which first side is of a first length; and which memory module is also formed of a second portion having a second side, which second side is of a second length, the second length being greater than the first length.
In a preferred embodiment of the present invention, the second side extends beyond the first side in two directions, thereby forming a “T-shape”.
In alternative embodiments of the present invention, the second side defines a nonlinear element, such as an arc.
The present invention also provides a method for increasing memory capacity in a system, which method includes the steps of providing a module with an area that extends beyond its connector footprint, mounting memory elements on the module so that at least a portion of memory is disposed in the area that extends beyond the module's connector footprint, and connecting the memory module with memory mounted thereon to the system.
Accordingly, an object of the present invention is to provide simple methods and apparatus for maximizing DRAM density within the space constraints of existing computer systems.
Another object of the present invention is to introduce new forms of memory modules, so there is greater choice in how memory can be disposed in systems which use the memory.
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IBM Technical Disclosure Bulletin “Stacking Single Inline Memory Module Card” vol. 37 No. 10 pp. 353 and 354, Oct. 1994.*
European Search Report, regarding counterpart European application No. EP97308436; 2 pages; Mar. 4, 1999.
Hooten Jeffrey L.
Noonan Robert W.
Post Christian H.
Compaq Computer Corporation
Fletcher Yoder & Van Someren
Sparks Donald
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