Abstract: A low profile ice maker/dispenser and water dispenser having a high ice making capacity, for ice nugget manufacture is provided, wherein ice nuggets are metered out of a storage bin via a nugget dispenser outlet, and whereby water is dispensed via a water dispenser outlet. A refrigeration cycle is used, wherein an auger compresses ice on a wall of an evaporator and delivers the ice to the ice bin, breaking it into nuggets along the way. An outer wall of the evaporator is comprised of part of the water reservoir. A baffle in the ice bin facilitates metering of the amount of ice discharged. The system comprises a closed system that enables efficient cleaning of the system.

Abstract: In some embodiments, alerts are sent to appropriate parties if an insulated container is not properly packed out to insure the approximate safe temperature of the materials. In other embodiments, a countdown timer is used to keep track of the time that the biologic has been in transit, and ensure that the amount of time does not exceed the known shelf life of the biologic. In still other embodiments, the payload container is equipped with its own sensors, such as temperature sensors, and communications devices, such as a close range communication device, capable of transmitting information regarding a range of parameters, including, but not limited to, temperature, humidity, location and time, from the payload container to an end user. In other embodiments, shielding and/or radiation sensors are included in insulated shipping or storage containers, or payload containers, to shield and monitor the radiation exposure of the payload.

Abstract: In some embodiments, alerts are sent to appropriate parties if an insulated container is not properly packed out to insure the approximate safe temperature of the materials. In other embodiments, a countdown timer is used to keep track of the time that the biologic has been in transit, and ensure that the amount of time does not exceed the known shelf life of the biologic. In still other embodiments, the payload container is equipped with its own sensors, such as temperature sensors, and communications devices, such as a close range communication device, capable of transmitting information regarding a range of parameters, including, but not limited to, temperature, humidity, location and time, from the payload container to an end user. In other embodiments, shielding and/or radiation sensors are included in insulated shipping or storage containers, or payload containers, to shield and monitor the radiation exposure of the payload.

Abstract: In some embodiments, alerts are sent to appropriate parties if an insulated container is not properly packed out to insure the approximate safe temperature of the materials. In other embodiments, a countdown timer is used to keep track of the time that the biologic has been in transit, and ensure that the amount of time does not exceed the known shelf life of the biologic. In still other embodiments, the payload container is equipped with its own sensors, such as temperature sensors, and communications devices, such as a close range communication device, capable of transmitting information regarding a range of parameters, including, but not limited to, temperature, humidity, location and time, from the payload container to an end user. In other embodiments, shielding and/or radiation sensors are included in insulated shipping or storage containers, or payload containers, to shield and monitor the radiation exposure of the payload.

Abstract: In some embodiments, alerts are sent to appropriate parties if an insulated container is not properly packed out to insure the approximate safe temperature of the materials. In other embodiments, a countdown timer is used to keep track of the time that the biologic has been in transit, and ensure that the amount of time does not exceed the known shelf life of the biologic. In still other embodiments, the payload container is equipped with its own sensors, such as temperature sensors, and communications devices, such as a close range communication device, capable of transmitting information regarding a range of parameters, including, but not limited to, temperature, humidity, location and time, from the payload container to an end user. In other embodiments, shielding and/or radiation sensors are included in insulated shipping or storage containers, or payload containers, to shield and monitor the radiation exposure of the payload.

Abstract: In some embodiments, alerts are sent to appropriate parties if an insulated container is not properly packed out to insure the approximate safe temperature of the materials. In other embodiments, a countdown timer is used to keep track of the time that the biologic has been in transit, and ensure that the amount of time does not exceed the known shelf life of the biologic. In still other embodiments, the payload container is equipped with its own sensors, such as temperature sensors, and communications devices, such as a close range communication device, capable of transmitting information regarding a range of parameters, including, but not limited to, temperature, humidity, location and time, from the payload container to an end user. In other embodiments, shielding and/or radiation sensors are included in insulated shipping or storage containers, or payload containers, to shield and monitor the radiation exposure of the payload.

Abstract: An integrated circuit device includes a pair of serially-connected crystal resonators arranged as a first crystal resonator, which is configured to preferentially support a fundamental resonance mode in response to an input signal, and a second crystal resonator, which is configured to preferentially support a third or higher overtone resonance mode in response to a signal generated at an output terminal of the first crystal resonator. A negative impedance converter (NIC) is also provided, which has an input terminal electrically connected to an input terminal of the first crystal resonator and an output terminal electrically connected to one of the output terminal of the first crystal resonator and the output terminal of the second crystal resonator. The NIC may be a CMOS-based NIC that is devoid of inductive reactance from a passive inductor.

Abstract: Embodiments of multi-cassette carrying cases are provided herein. In some embodiments a multi-cassette carrying case includes: a body having an inner volume; a door coupled to the body to selectively seal off the inner volume; and a plurality of cassette holders disposed in the inner volume to hold one or more substrate cassettes. In some embodiments, a method of transferring substrates includes: placing a substrate in a substrate cassette, wherein an inner volume of the substrate cassette is sealed from an environment outside of the substrate cassette; and placing the substrate cassette in a multi-cassette carrying case.

Abstract: Provided are apparatuses for cryopreserving cells which include a vessel comprising a biocompatible substrate, wherein the vessel further comprises an interior and an exterior, and a mechanical ice nucleating device disposed in or on the vessel interior for initiating ice crystal formation. Also provided are kits comprising one or more apparatuses for cryopreserving cells and a biopreservation medium. Further provided are compositions comprising a vessel for holding cells, a mechanical ice nucleating device, a biopreservation medium, and cells disposed in the vessel. The apparatuses, kits, and compositions of the invention can optionally include an insulating material which is disposed on all or a portion of the vessel.

Abstract: The present invention relates to materials and methods for hypothermic collection of whole blood, and components thereof, which can extend the holding time of blood beyond the current usable limit. Additionally, blood can be drawn directly into a hypothermic preservation solution without the addition of standard anticoagulants. This is enabled by providing sustained cellular viability under hypothermic conditions using a nutrient matrix devoid of animal proteins and containing energy substrates, free-radical scavengers, and impermeants that is ionically balanced for storage of biologic materials at low temperatures to prevent cellular stress-induced apoptosis.

Abstract: A low profile ice maker/dispenser and water dispenser having a high ice making capacity, for ice nugget manufacture is provided, wherein ice nuggets are metered out of a storage bin via a nugget dispenser outlet, and whereby water is dispensed via a water dispenser outlet. A refrigeration cycle is used, wherein an auger compresses ice on a wall of an evaporator and delivers the ice to the ice bin, breaking it into nuggets along the way. An outer wall of the evaporator is comprised of part of the water reservoir. A baffle in the ice bin facilitates metering of the amount of ice discharged. The system comprises a closed system that enables efficient cleaning of the system.

Abstract: A low profile ice maker/dispenser and water dispenser having a high ice making capacity, for ice nugget manufacture is provided, wherein ice nuggets are metered out of a storage bin via a nugget dispenser outlet, and whereby water is dispensed via a water dispenser outlet. A refrigeration cycle is used, wherein an auger compresses ice on a wall of an evaporator and delivers the ice to the ice bin, breaking it into nuggets along the way. An outer wall of the evaporator is comprised of part of the water reservoir. A baffle in the ice bin facilitates metering of the amount of ice discharged. The system comprises a closed system that enables efficient cleaning of the system.

Abstract: The present invention relates to materials and methods for hypothermic collection of whole blood, and components thereof, which can extend the holding time of blood beyond the current useable limit. Additionally, blood can be drawn directly into a hypothermic preservation solution without the addition of standard anticoagulants. This is enabled by providing sustained cellular viability under hypothermic conditions using a nutrient matrix devoid of animal proteins and containing energy substrates, free-radical scavengers, and impermeants that is ionically balanced for storage of biologic materials at low temperatures to prevent cellular stress-induced apoptosis.

Abstract: Embodiments of the invention generally include a robot assembly comprising a robot operable to position a substrate at one or more points within a plane, and a motion assembly having a motor operable to position the robot in a direction generally parallel to a first direction. The motion assembly comprises a robot support interface having the robot coupled thereto, and one or more walls that form an interior region in which the motor is enclosed. The walls define an elongated opening through which the robot support interface travels, and the motor is operable to move the robot support interface laterally in the elongated opening. The motion assembly further comprises one or more fan assemblies that are in fluid communication with the interior region. The fan assemblies are operable to create a subatmospheric pressure in the interior region thereby causing gas to flow through the elongated opening into the interior region.

Abstract: A system and methods for server consolidation are disclosed. Embodiments of the invention allow consolidation of less used technology infrastructure resulting in lower total server count. A target server list and a base server list are determined by examining CPU utilization and also by applying rating factors. The target server list includes target servers to be eliminated by transferring tasks to base servers in the base server list. Consolidation scenarios can then be identified to produce a consolidated server utilization analysis to facilitate the consolidating of interconnected servers. In at least some embodiments, the rating factors can include a minimum utilization threshold, for example, a threshold of ten percent utilization. Other factors can include server environment, server role, operating system, server location, and model technology, for example, whether the specific server hardware technology is declining or outdated.

Abstract: Embodiments of the invention generally include a robot assembly comprising a robot operable to position a substrate at one or more points within a plane, and a motion assembly having a motor operable to position the robot in a direction generally parallel to a first direction. The motion assembly comprises a robot support interface having the robot coupled thereto, and one or more walls that form an interior region in which the motor is enclosed. The walls define an elongated opening through which the robot support interface travels, and the motor is operable to move the robot support interface laterally in the elongated opening. The motion assembly further comprises one or more fan assemblies that are in fluid communication with the interior region. The fan assemblies are operable to create a subatmospheric pressure in the interior region thereby causing gas to flow through the elongated opening into the interior region.

Abstract: The present invention generally provides a cluster tool for processing a substrate. In one embodiment, the cluster tool comprises at least one processing rack, which comprises a first plurality of substrate processing chambers that are positioned adjacent to each other and aligned in a first direction, a second plurality of substrate processing chambers that are positioned adjacent to each other and adjacent to at least one of the first plurality of substrate processing chambers, the second plurality of substrate processing chambers being positioned in a second direction relative to the first direction, a first shuttle robot movable in the first direction for moving substrates between each of the first plurality of substrate processing chambers, and a second shuttle robot movable in the second direction for moving substrates between each of the second plurality of substrate processing chambers.

Abstract: Embodiments generally provide an apparatus and method for processing substrates using a multi-chamber processing system (e.g., a cluster tool) that has an increased system throughput, increased system reliability, substrates processed in the cluster tool have a more repeatable wafer history, and also the cluster tool has a smaller system footprint. In one embodiment, a cluster tool for processing a substrate includes a first processing rack, a first robot assembly and a second robot assembly operable to transfer substrates to substrate processing chambers in the first processing rack, and a horizontal motion assembly. The horizontal motion assembly includes one or more walls that form an interior region in which a motor is enclosed. The one or more walls defining an elongated opening through which a robot support interface travels, the robot support interface supporting a robot of the horizontal motion assembly.