Two speed recirculating memory system using partially good components
First Claim
1. In a two speed recirculating memory system utilizing rows of partially good components and a row of spare components, one of said spare components being substituted for a respective partially good component when the defective portion thereof is being addressed by an address signal, said signal comprising first bits representing component address and second bits representing portion address,all portions of said spare components, when addressed, being driven at a fast clock rate, addressed portions of said partially good components being driven at said fast clock rate and unaddressed portions of said partially good components being driven at a slow clock rate,means for detecting when a defective portion address is being invoked either solely in the current address or solely in the next pending address and for producing an inhibit signal upon that event, said inhibit signal preventing the next memory fetch until resynchronization has been achieved between the last accessed and the unaccessed recirculating memory components,said means for detecting comprising means for comparing said component address bits of said current and pending addresses and for producing a first signal when said component address bits of said current and pending addresses are the same,means responsive to said portion bits of said current address and for producing a second signal when said portion bits represent a defective portion,means responsive to said portion bits of said pending address and for producing a third signal when said portion bits represent a defective portion andmeans responsive to said first, second and third signals for producing said inhibit signal.
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Accused Products
Abstract
A CCD recirculating memory system is disclosed in which "partially good" CCD memory chips and "all good" memory chips are mounted on memory cards. The defective portions of the partially good chips are in the same chip octants on the same card. The cards are addressed by address permutation means which causes the defective portions to appear to have the same predetermined address to the operating system.
The addressed CCD row on the partially good chips are clocked at a fast rate while the unaddressed rows are clocked at a slow rate. All of the rows of the "all good" chips are clocked at a fast rate when a defective portion of the partially good chips is being addressed and are otherwise clocked at a slow rate.
A select signal is generated whenever the predetermined address is invoked and causes the substitution of an all good chip for the addressed partially good chip. The select signal also selectively prevents another memory access from occurring until resynchronization is achieved between the last accessed chip and the unaccessed chips. The arrangement minimizes waiting time between successive memory accesses in a two speed partially good recirculating array without the need to map and store the defective locations on the partially good chips employed.
27 Citations
8 Claims
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1. In a two speed recirculating memory system utilizing rows of partially good components and a row of spare components, one of said spare components being substituted for a respective partially good component when the defective portion thereof is being addressed by an address signal, said signal comprising first bits representing component address and second bits representing portion address,
all portions of said spare components, when addressed, being driven at a fast clock rate, addressed portions of said partially good components being driven at said fast clock rate and unaddressed portions of said partially good components being driven at a slow clock rate, means for detecting when a defective portion address is being invoked either solely in the current address or solely in the next pending address and for producing an inhibit signal upon that event, said inhibit signal preventing the next memory fetch until resynchronization has been achieved between the last accessed and the unaccessed recirculating memory components, said means for detecting comprising means for comparing said component address bits of said current and pending addresses and for producing a first signal when said component address bits of said current and pending addresses are the same, means responsive to said portion bits of said current address and for producing a second signal when said portion bits represent a defective portion, means responsive to said portion bits of said pending address and for producing a third signal when said portion bits represent a defective portion and means responsive to said first, second and third signals for producing said inhibit signal.
Specification