IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0511943
(2006-08-28)
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등록번호 |
US-7480763
(2009-01-20)
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발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
3 인용 특허 :
223 |
초록
Circuits and methods for providing versatile RAM for a programmable logic device are provided. These circuits and methods preferably allow signal lines that may be used to provide inputs for logic elements to be used instead for addressing memory blocks that form the versatile RAM.
대표청구항
▼
What is claimed is: 1. A programmable logic device having a versatile Random Access Memory (RAM), the device comprising: a plurality of logic array blocks, each of the logic array blocks comprising a plurality of logic elements and an embedded RAM memory block that is addressable by the plurality o
What is claimed is: 1. A programmable logic device having a versatile Random Access Memory (RAM), the device comprising: a plurality of logic array blocks, each of the logic array blocks comprising a plurality of logic elements and an embedded RAM memory block that is addressable by the plurality of logic elements; a plurality of multiplexers adapted to drive output signals from the plurality of logic array blocks onto a selected portion of a plurality of global signal lines; an embedded array block logic array block (EAB LAB), wherein the EAB LAB is adapted to provide a plurality of signals via the global signal lines to the plurality of logic array blocks and their respective RAM memory blocks, the global signal lines adapted to: in a first configuration of the programmable logic device, provide address signals that, at least in part, specify a location in at least one RAM memory block, the location that is adapted to be either written to or read from; and in a second configuration of the programmable logic device, provide a plurality of input signals to a plurality of inputs of at least one logic element. 2. The programmable logic device of claim 1, wherein, in a third configuration of the programmable logic device, the global signal lines provide a plurality of address signals that, at least in part, specify a location in the at least one RAM memory block, the location that is adapted to be read from in order to provide input signals to the at least one logic element. 3. The programmable logic device of claim 1, wherein the plurality of RAM memory blocks comprise outputs adapted to provide a second plurality of input signals to the at least one logic element. 4. The programmable logic device of claim 1, further comprising input multiplexers that provide signals to the global signal lines. 5. The programmable logic device of claim 1, wherein the at least one RAM memory block is adapted to transmit output signals to one of a) the global signal lines and b) the at least one logic element. 6. The programmable logic device of claim 1, wherein when the at least one RAM memory block drives its output signals to the at least one logic element, the global signal lines are provided to the at least one RAM memory block for use as data signals or address signals. 7. The programmable logic device of claim 1, wherein the plurality of logic array blocks further comprise a plurality of registers for registering the output signals before they are driven onto the plurality of global signal lines. 8. The programmable logic device of claim 1, wherein the plurality of logic array blocks further comprise a plurality of registers for registering the output signals before they are driven onto a general interconnect. 9. The programmable logic device of claim 1, wherein a selected portion of the global signals lines select which of the plurality of RAM memory block receives an input data signal. 10. The programmable logic device of claim 1 further comprising a global control signal, wherein the global control signal enables the simultaneous writing of data into each of the plurality of RAM memory blocks. 11. The programmable logic device of claim 1, wherein the at least one RAM memory block comprises a plurality of outputs that are coupled to feed the at least one logic element. 12. The programmable logic device of claim 11, wherein the at least one logic element is programmed to perform a logical or arithmetic function on signals received from the at least one RAM memory block. 13. A programmable logic device having a versatile Random Access Memory (RAM), the device comprising: a plurality of logic array blocks, each of the logic array blocks comprising a plurality of logic elements and an embedded RAM memory block that is addressable by the plurality of logic elements; a plurality of multiplexers adapted to drive output signals from the plurality of logic array blocks onto a selected portion of a plurality of global signal lines; an embedded array block logic array block (EAB LAB), wherein the EAB LAB is adapted to receive a plurality of signals from a general interconnect, register at least a portion of the plurality of signals and drive at least a portion of the plurality of signals via the global signal lines to one of the plurality of RAM memory blocks and the plurality of logic array blocks, the global signal lines adapted to: in a first configuration of the programmable logic device, provide address signals that, at least in part, specify a location in at least one RAM memory block, the location that is adapted to be either written to or read from; and in a second configuration of the programmable logic device, provide a plurality of input signals to a plurality of inputs of at least one logic element; and an embedded array block output logic array block (EAB Output LAB), wherein the EAB Output LAB is adapted to receive a plurality of signals from global signal lines, register at least a portion of the plurality of signals and drive at least a portion of the plurality of signals onto a general interconnect. 14. A method of addressing Random Access Memory (RAM) in a programmable logic device, the programmable logic device including a plurality of logic array blocks having a plurality of logic elements and an embedded RAM memory block that is addressable by the plurality of logic elements, the method comprising: in a first configuration of the programmable logic device, providing address signals from an embedded array block logic array block (EAB LAB) to at least one RAM memory block associated with a logic array block; in a second configuration of the programmable logic device, providing input signals from the EAB LAB to at least one logic element of the logic array block; and combining the plurality of logic elements to act as a single logic element by, at least in part, utilizing the outputs of the plurality of RAM memory blocks as data inputs to the plurality of logic elements. 15. The method of claim 14 further comprising combining the plurality of RAM memory blocks to act as a single memory block by, at least in part, addressing the plurality of RAM memory blocks using input signals to the plurality of logic elements. 16. The method of claim 14 further comprising in a third configuration of the programmable logic device, providing address signals from the EAB LAB to the at least one RAM memory block, reading data from the at least one RAM memory block and providing the data to the at least one logic element. 17. The method of claim 14 further comprising writing to the at least one RAM memory block in a first word size and reading from the at least one RAM memory block in a second word size, the first word size being different from the second word size.
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