A static random access memory (SRAM) device is provided in accordance with some embodiments. The SRAM device comprises a plurality of two-port SRAM arrays, which comprise a plurality of two-port SRAM cells. Each two-port SRAM cell comprises a write port portion, a read port portion, a first plurality of metal lines located in a first metal layer, a second plurality of metal lines located in a second metal layer, a third plurality of metal lines located in a third metal layer a plurality of edge cells, a plurality of well strap cells, and a plurality of jumper structures. Each jumper structure comprises first, second, and third metal landing pads located in the second metal layer and electrically connecting metal lines of the first and third metal layers.

A static random access memory (SRAM) device is provided in accordance with some embodiments. The SRAM device comprises a plurality of two-port SRAM arrays, which comprise a plurality of two-port SRAM cells. Each two-port SRAM cell comprises a write port portion, a read port portion, a first plurality of metal lines located in a first metal layer, a second plurality of metal lines located in a second metal layer, a third plurality of metal lines located in a third metal layer a plurality of edge cells, a plurality of well strap cells, and a plurality of jumper structures. Each jumper structure comprises first, second, and third metal landing pads located in the second metal layer and electrically connecting metal lines of the first and third metal layers.

An electromechanical device comprises a substrate structure, a set of electrodes, one or more anchor trenches, and one or more multi-faced components. For example, each of the one or more multi-faced components comprises an isolation region formed on a first portion of the surface of the component, a high resistance region formed on a second portion of the surface of the component, and a low resistance region formed on a third portion of the surface of the component. For example, the synapse device is configured to provide an analog resistive output, ranging between the high resistance region and the low resistance region, from at least one of the set of electrodes in response to a pulsed voltage input to at least another one of the set of electrodes.

An electromechanical device comprises a substrate structure, a set of electrodes, one or more anchor trenches, and one or more multi-faced components. For example, each of the one or more multi-faced components comprises an isolation region formed on a first portion of the surface of the component, a high resistance region formed on a second portion of the surface of the component, and a low resistance region formed on a third portion of the surface of the component. For example, the synapse device is configured to provide an analog resistive output, ranging between the high resistance region and the low resistance region, from at least one of the set of electrodes in response to a pulsed voltage input to at least another one of the set of electrodes.

A static random access memory (SRAM) device is provided in accordance with some embodiments. The SRAM device comprises a plurality of two-port SRAM arrays, which comprise a plurality of two-port SRAM cells. Each two-port SRAM cell comprises a write port portion, a read port portion, a first plurality of metal lines located in a first metal layer, a second plurality of metal lines located in a second metal layer, a third plurality of metal lines located in a third metal layer a plurality of edge cells, a plurality of well strap cells, and a plurality of jumper structures. Each jumper structure comprises first, second, and third metal landing pads located in the second metal layer and electrically connecting metal lines of the first and third metal layers.

An electromechanical device comprises a substrate structure, a set of electrodes, one or more anchor trenches, and one or more multi-faced components. For example, each of the one or more multi-faced components comprises an isolation region formed on a first portion of the surface of the component, a high resistance region formed on a second portion of the surface of the component, and a low resistance region formed on a third portion of the surface of the component. For example, the synapse device is configured to provide an analog resistive output, ranging between the high resistance region and the low resistance region, from at least one of the set of electrodes in response to a pulsed voltage input to at least another one of the set of electrodes.

An electromechanical device comprises a substrate structure, a set of electrodes, one or more anchor trenches, and one or more multi-faced components. For example, each of the one or more multi-faced components comprises an isolation region formed on a first portion of the surface of the component, a high resistance region formed on a second portion of the surface of the component, and a low resistance region formed on a third portion of the surface of the component. For example, the synapse device is configured to provide an analog resistive output, ranging between the high resistance region and the low resistance region, from at least one of the set of electrodes in response to a pulsed voltage input to at least another one of the set of electrodes.

An electromechanical device comprises a substrate structure, a set of electrodes, one or more anchor trenches, and one or more multi-faced components. For example, each of the one or more multi-faced components comprises an isolation region formed on a first portion of the surface of the component, a high resistance region formed on a second portion of the surface of the component, and a low resistance region formed on a third portion of the surface of the component. For example, the synapse device is configured to provide an analog resistive output, ranging between the high resistance region and the low resistance region, from at least one of the set of electrodes in response to a pulsed voltage input to at least another one of the set of electrodes.

An electromechanical device comprises a substrate structure, a set of electrodes, one or more anchor trenches, and one or more multi-faced components. For example, each of the one or more multi-faced components comprises an isolation region formed on a first portion of the surface of the component, a high resistance region formed on a second portion of the surface of the component, and a low resistance region formed on a third portion of the surface of the component. For example, the synapse device is configured to provide an analog resistive output, ranging between the high resistance region and the low resistance region, from at least one of the set of electrodes in response to a pulsed voltage input to at least another one of the set of electrodes.