Abstract: A host device coupled to a data storage device via a predetermined interface includes a processor and a thermal sensor. The thermal sensor senses ambient temperature to obtain a sensed temperature and provides the sensed temperature to the processor. When the processor determines that the sensed temperature is higher than a high-temperature threshold, the processor adjusts a data transfer speed of the predetermined interface according to a data processing speed required by subsequent data to be read from or written to the data storage device.

Abstract: A dynamic crossband link method is provided, which includes utilizing a local forwarding module to transmit and receive packet data to and from a client device via a first frequency band; obtaining a plurality of communication quality indicators corresponding to a plurality of uplink forwarding modules; and determining to transmit the packet data to a wireless access device and receive the packet data from the wireless access device via one of the plurality of uplink forwarding modules according to the plurality of communication quality indicators.

Abstract: A high electron mobility transistor includes a buffer layer disposed on a substrate. A barrier layer is disposed on the buffer layer. A channel layer is disposed in the buffer layer and is adjacent to the interface between the buffer layer and the barrier layer. A gate electrode is disposed on the barrier layer. A drain electrode is disposed on the barrier layer on a first side of the gate electrode. A source electrode is disposed on the barrier layer on a second side of the gate electrode. A first enhancement layer is disposed on the barrier layer and the channel layer between the gate electrode and the drain electrode and is not in direct contact with the gate electrode, the source electrode, or the drain electrode. The first enhancement layer is an N-type doped III-V semiconductor.

Abstract: A method of macro placement includes partitioning an entire region of a semiconductor chip into sub-regions; determining a packing sequence of a plurality of movable macros in the sub-region; extracting search points of a plurality of placed blocks in the sub-region with respect to one of the movable macros; determining a feasible region associated with the search point; packing said movable macro in the feasible region; evaluating a legalizing cost function; and determining whether a value of the evaluated legalizing cost function is less than a predetermined threshold value.

Abstract: A dynamic crossband link method includes utilizing a local forwarding module to receive packet data from a client device via a first frequency band, obtaining a first communication quality indicator corresponding to a first uplink forwarding module and a second communication quality indicator corresponding to a second uplink forwarding module, and determining to transmit the packet data to a wireless access device via the first uplink forwarding module or via the second uplink forwarding module according to the first communication quality indicator and the second communication quality indicator.

Abstract: The present disclosure provides an extreme ultraviolet (EUV) lithography system. The EUV lithography system includes a collector having a coating surface designed to collect and reflect EUV radiation; a gas supply module; and a gas pipeline integrated with the collector and connected to the gas supply module. The gas pipeline includes inward and outward entrances into the collector. The inward and outward entrances are configured and operable to form a gas curtain on the coating surface of the collector.

Abstract: A system and method of compensating for local focus errors in a semiconductor process. The method includes providing a reticle and applying, at a first portion of the reticle, a step height based on an estimated local focus error for a first portion of a wafer corresponding to the first portion of the reticle. A multilayer coating is formed over the reticle and an absorber layer is formed over the multilayer coating. A photoresist is formed over the absorber layer. The photoresist is patterned, an etch is performed of the absorber layer and residual photoresist is removed.

Abstract: The present disclosure relates to a deformable reticle chuck. In some embodiments, an extreme ultraviolet (EUV) deformable reticle chuck has a substrate of insulating material with a plurality of protrusions extending outward from a first side of the substrate. A resistive material is arranged along a second side of the substrate below the plurality of protrusions. The resistive material is configured to expand in response to an applied current or voltage to adjust a shape of a reticle.

Abstract: A reticle for use in an extreme ultraviolet (euv) lithography tool includes a trench formed in the opaque border formed around the image field of the reticle. The trench is coated with an absorber material. The reticle is used in an euv lithography tool in conjunction with a reticle mask and the positioning of the reticle mask and the presence of the trench combine to prevent any divergent beams of radiation from reaching any undesired areas on the substrate being patterned. In this manner, only the exposure field of the substrate is exposed to the euv radiation. Pattern integrity in neighboring fields is maintained.

Abstract: Provided is an integrated circuit (IC) fabrication method. The method includes receiving a mask, the mask having a plurality of dies and receiving a wafer, the wafer having a resist layer. The method further includes exposing the resist layer using the mask with a fraction radiation dose thereby forming a first plurality of images; re-positioning the mask relative to the wafer; and exposing the resist layer using the mask with another fraction radiation dose. A second plurality of images is formed, wherein a portion of the second plurality of images is superimposed over another portion of the first plurality of images.

Abstract: Some embodiments of the present disclosure related to a method to form and operate the reflective surface to compensate for aberration effects on pattern uniformity. In some embodiments, the reflective surface comprises a mirror of within reduction optics of an EUV illumination tool. In some embodiments, the reflective surface comprises a reflective reticle. An EUV reflective surface topography comprising a reflective surface is disposed on a surface of a substrate, and is manipulated by mechanical force or thermal deformation. The substrate includes a plurality of cavities, where each cavity is coupled to a deformation element configured to expand a volume of the cavity and consequently deform a portion of the reflective surface above each cavity, for local control of the reflective surface through thermal deformation of a resistive material subject to an electric current, or mechanical deformation due to pressurized gas within the cavity or a piezoelectric effect.

Abstract: The present disclosure relates to a deformable reticle chuck. In some embodiments, an extreme ultraviolet (EUV) deformable reticle chuck has a substrate of insulating material with a plurality of protrusions extending outward from a first side of the substrate. A resistive material is arranged along a second side of the substrate below the plurality of protrusions. The resistive material is configured to expand in response to an applied current or voltage to adjust a shape of a reticle.

Abstract: The present disclosure provides an extreme ultraviolet (EUV) lithography system. The EUV lithography system includes a collector having a coating surface designed to collect and reflect EUV radiation; a gas supply module; and a gas pipeline integrated with the collector and connected to the gas supply module. The gas pipeline includes inward and outward entrances into the collector. The inward and outward entrances are configured and operable to form a gas curtain on the coating surface of the collector.

Abstract: A dynamic crossband link method includes utilizing a local forwarding module to receive packet data from a client device via a first frequency band, obtaining a first communication quality indicator corresponding to a first uplink forwarding module and a second communication quality indicator corresponding to a second uplink forwarding module, and determining to transmit the packet data to a wireless access device via the first uplink forwarding module or via the second uplink forwarding module according to the first communication quality indicator and the second communication quality indicator.

Abstract: Some embodiments of the present disclosure relate to a method of overlay control which utilizes a deformable electrostatic chuck. The method comprises exposing a substrate to radiation which is reflected off of a reticle. The reticle is mounted to a deformable electrostatic chuck by a plurality of raised contacts, where each raised contact is configured to independently vary in height from a surface of the deformable electrostatic chuck. After exposure of the substrate to radiation which is reflected off of the reticle, a displacement between a first alignment shape formed on a first layer disposed on a surface of the substrate and a second alignment shape formed by the exposure is measured. The height of one or more of the plurality of raised contact is changed based upon the displacement to alter a surface topology of the reticle, which negates some effects of clamping topology. Other embodiments are also disclosed.

Abstract: The present disclosure provides an extreme ultraviolet (EUV) radiation source module. The EUV radiation source module includes a collector designed to collect and reflect EUV light; a solid cover integrated with the collector and configured to have a supply gap between the collector and the solid cover; and a gas pipeline integrated with the collector. The supply gap provides a path for gas flow to the radiation source at edge of the collector. The gas pipeline includes an inward entrance and an outward entrance.

Abstract: A chuck includes a number of gas openings positioned to provide a gas flow to a backside of a wafer secured to the chuck. The chuck also includes a number of exhaust openings positioned to exhaust the gas at a distance from a topside edge of the wafer such that adverse thermal effects on the edge are reduced to a predetermined level.

Abstract: The present disclosure provides an extreme ultraviolet (EUV) radiation source module. The EUV radiation source module includes a collector designed to collect and reflect EUV light; a solid cover integrated with the collector and configured to have a supply gap between the collector and the solid cover; and a gas pipeline integrated with the collector. The supply gap provides a path for gas flow to the radiation source at edge of the collector. The gas pipeline includes an inward entrance and an outward entrance.

Abstract: A reticle for use in an extreme ultraviolet (euv) lithography tool includes a trench formed in the opaque border formed around the image field of the reticle. The trench is coated with an absorber material. The reticle is used in an euv lithography tool in conjunction with a reticle mask and the positioning of the reticle mask and the presence of the trench combine to prevent any divergent beams of radiation from reaching any undesired areas on the substrate being patterned. In this manner, only the exposure field of the substrate is exposed to the euv radiation. Pattern integrity in neighboring fields is maintained.

Abstract: A system and method of compensating for local focus errors in a semiconductor process. The method includes providing a reticle and applying, at a first portion of the reticle, a step height based on an estimated local focus error for a first portion of a wafer corresponding to the first portion of the reticle. A multilayer coating is formed over the reticle and an absorber layer is formed over the multilayer coating. A photoresist is formed over the absorber layer. The photoresist is patterned, an etch is performed of the absorber layer and residual photoresist is removed.