Patent application number | Description | Published |
20100112461 | PHOTOLITHOGRAPHIC RETICLES WITH ELECTROSTATIC DISCHARGE PROTECTION STRUCTURES - Photolithographic reticles are provided that have electrostatic discharge protection features. A photolithographic reticle may be formed from metal structures such as chrome structures on a transparent substrate such as fused silica. Some of the metal structures on the reticle correspond to transistors and other electronic devices on integrated circuits that are fabricated when using the reticles in a step-and-repeat lithography tool. These metal device structures may be susceptible to damage due to electrostatic charge build up during handling of the reticle. To prevent damage, dummy ring structures are formed in the vicinity of device structures. The dummy ring structures may be constructed to be more sensitive to electrostatic discharge than the device structures, so that in the event of an electrostatic discharge, damage is confined to portions of the reticle that are not critical. | 05-06-2010 |
20100177560 | NON-VOLATILE MEMORY CIRCUIT INCLUDING VOLTAGE DIVIDER WITH PHASE CHANGE MEMORY DEVICES - A memory circuit including a voltage divider with a first phase change memory (PCM) device and a second PCM device coupled to the first PCM device is described. In one embodiment, the first PCM device is in a set resistance state and the second PCM device is in a reset resistance state. Also, in one embodiment, the voltage divider further includes a first switch coupled to the first PCM device and a second switch coupled to the first switch and the second PCM device. In one embodiment, the memory circuit further includes a half latch coupled to the voltage divider and a cascade transistor coupled to the half latch and the voltage divider. | 07-15-2010 |
20120311401 | MULTIPORT MEMORY ELEMENT CIRCUITRY - Integrated circuits with multiport memory elements may be provided. A multiport memory element may include a latching circuit, a first set of address transistors, and a second set of address transistors. The latching circuit may include cross-coupled inverters, each of which includes a pull-up transistor and a pull-down transistor. The first set of address transistors may couple the latching circuit to a write port, whereas the second set of address transistors may couple the latching circuit to a read port. The pull-down transistors and the second set of address transistors may have body bias terminals that are controlled by a control signal. During data loading operations, the control signal may be temporarily elevated to weaken the pull-down transistors and the second set of address transistors to improve the write margin of the multiport memory element. | 12-06-2012 |