SRAM cell with dynamic split ground and split wordline
First Claim
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1. A memory cell, comprising:
- a first access transistor enabled by a first wordline to control access to cross coupled inverters by a first bitline;
a second access transistor enabled by a second wordline to control access to the cross coupled inverters by a second bitline; and
a split ground line comprising a first ground line (GNDL) separated from a second ground line (GNDR), the GNDL being connected to a transistor of a first inverter of the cross coupled inverters and the GNDR being connected to a first transistor of a second inverter of the cross coupled inverters,wherein during read access of the second bitline on bitline right (BR), the GNDL is raised by about 10% of Vdd above a common ground GND and/or the GNDR is lowered by about 10% of Vdd below the common ground GND.
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Abstract
An SRAM cell with dynamic split ground (GND) and split wordline (WL) for extreme scaling is disclosed. The memory cell includes a first access transistor enabled by a first wordline to control access to cross coupled inverters by a first bitline. The memory cell further includes a second access transistor enabled by a second wordline to control access to the cross coupled inverters by a second bitline. The memory cell further includes a split ground line comprising a first ground line (GNDL) separated from a second ground line (GNDR). The GNDL is connected to a transistor of a first inverter of the cross coupled inverters and the GNDR is connected to a first transistor of a second inverter of the cross coupled inverters.
19 Citations
8 Claims
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1. A memory cell, comprising:
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a first access transistor enabled by a first wordline to control access to cross coupled inverters by a first bitline; a second access transistor enabled by a second wordline to control access to the cross coupled inverters by a second bitline; and a split ground line comprising a first ground line (GNDL) separated from a second ground line (GNDR), the GNDL being connected to a transistor of a first inverter of the cross coupled inverters and the GNDR being connected to a first transistor of a second inverter of the cross coupled inverters, wherein during read access of the second bitline on bitline right (BR), the GNDL is raised by about 10% of Vdd above a common ground GND and/or the GNDR is lowered by about 10% of Vdd below the common ground GND. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A memory cell, comprising:
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cross coupled inverters comprising PFETs and NFETs; a bitline left (BL) which accesses a first inverter of cross coupled inverters by enabling a first access transistor; a bitline right (BR) which accesses a second inverter of the cross coupled inverters by enabling a second access transistor; a wordline left (WL) with enables the first access transistor; a wordline right (WR) which enables the second access transistor; and a split vertical ground line comprising a first vertical ground line (GNDL) separated from a second vertical ground line (GNDR), the GNDL being connected to the first inverter of the cross coupled inverters and the GNDR being connected to the second inverter of the cross coupled inverters, wherein; during global reset of memory array to zero state, the GNDL is raised to Vdd to pull down CR and push up CL; during global set of memory array to one state, the GNDR is raised to Vdd to pull down the CL and push up the CR; during global set/reset of specific columns of memory array to specific zero state and one state, the GNDL of specific columns are raised to Vdd, and the GNDR of other specific columns are raised to Vdd; and the GNDR and GNDL allow for differential signaling.
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Specification
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Current AssigneeInternational Business Machines Corporation
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Original AssigneeInternational Business Machines Corporation
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InventorsWong, Robert C.
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Primary Examiner(s)LE, THONG QUOC
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Application NumberUS15/287,263Publication NumberTime in Patent Office481 DaysField of Search36518905, 365148, 365154, 365156, 36518907, 36518909, 365191, 365208, 365 63US Class CurrentCPC Class CodesG11C 11/418 Address circuitsG11C 11/419 Read-write [R-W] circuitsG11C 8/14 Word line organisation; Wor...
