Abstract: The devices within an inter-device processing system maintain data coherency in the last level caches of the system as a cache line of data is shared between the devices by utilizing a directory in one of the devices that tracks the coherency protocol states of the memory addresses in the last level caches of the system.

Abstract: Disclosed are fusion polypeptides comprising fragments from a first and a second isoform of an interferon lambda family, nucleic acids encoding the fusion polypeptides, and vectors and host cells containing the same, and methods of making and using such compositions in treatment of interferon lambda-related diseases, disorders, and conditions.

Abstract: The present disclosure discloses a method, an apparatus and an electronic device for deploying an operator in a deep learning framework and relates to the field of artificial intelligence technology such as deep learning. And the solution is: acquiring a source file of the operator; compiling the source file of the operator to form a dynamic link library of the operator; generating an interface file transferred from the dynamic link library of the operator; generating an installable library file according to the dynamic link library and the interface file; installing the installable library file to a target programming language library.

Abstract: Provided is a dialkyl carbonate production method that enables a dialkyl carbonate to be produced in a simple manner and in a short reaction time and enables easy processing of by-products. This dialkyl carbonate production method involves generation reaction of a carbonate ester through reaction between carbon dioxide and an alcohol represented by formula (1), wherein the generation reaction of a carbonate ester is performed in the presence of a carbodiimide compound represented by formula (2) (R1-R3 in the formula are as described in the description of the present application).

Abstract: According to exemplary embodiments of the present disclosure, there is provided a method and apparatus of converting a schema in a deep learning framework, and a computer storage medium.

Abstract: A cache coherency mode includes: in response to a read request from a device in the host-device system for an instance of the shared data, sending the instance of the shared data from the host device to that device; and, in response to write request from a device, storing data associated with the write request in the cache of the host device. Shared data is pinned in the cache of the host device, and is not cached in any of the other devices in the host-device system. Because there is only one cached copy of the shared data in the host-device system, the devices in that system are cache coherent.

Abstract: Provided is a method for regenerating an aromatic amide compound into a corresponding aromatic nitrile compound, the method realizing a dehydration reaction of providing a target compound selectively at a high yield, with generation of a by-product being suppressed. Also provided is a method for producing an aromatic nitrile compound that decreases the number of steps of the dehydration reaction and significantly improves the reaction speed even at a pressure close to normal pressure. In addition, the above-described production method is applied to a carbonate ester production method to provide a method for producing a carbonate ester efficiently. The above-described methods are realized by a method for producing an aromatic nitrile compound including a dehydration reaction of dehydrating an aromatic amide compound, in which the dehydration reaction uses, as a solvent, any of 1,2-dimethoxybenzene, 1,3-dimethoxybenzene and 1,3,5-trimethoxybenzene.

Abstract: The present disclosure relates to fusion polypeptides comprising fragments from a first and a second FGF family member, nucleic acids encoding the fusion polypeptides, vectors and host cells containing the same, and methods of making and using such compositions in the treatment of FGF-related diseases, disorders, and conditions.

Abstract: A cache coherency mode includes: in response to a read request from a device in the host-device system for an instance of the shared data, sending the instance of the shared data from the host device to that device; and, in response to write request from a device, storing data associated with the write request in the cache of the host device. Shared data is pinned in the cache of the host device, and is not cached in any of the other devices in the host-device system. Because there is only one cached copy of the shared data in the host-device system, the devices in that system are cache coherent.

Abstract: Provided are a method for producing carbonate esters, and a catalytic structure for producing carbonate esters, whereby solid catalyst powder formation and detachment are suppressed and superior carbonate ester reaction efficiency is yielded when a catalytic structure constituted by a sufficient quantity of a cerium-oxide-containing solid catalyst supported on a substrate is used. The method for producing carbonate esters includes reacting a monohydric alcohol and carbon dioxide in the presence of a catalytic structure and a hydrating agent. The catalytic structure includes a substrate and a catalytic layer that is formed on at least a portion of the surface of the substrate and contains a solid catalyst and an inorganic binder. The solid catalyst contains cerium oxide. The supported quantity of the solid catalyst is 15 g/m2 to 200 g/m2, inclusive. The inorganic binder contains silica and/or alumina.

Abstract: The present disclosure provides an iron-based amorphous alloy as shown in formula (I): FeaSibBcPdMe (I); wherein a, b, c, d, and e are each independently atomic percentages of corresponding components; 80.5?a?84.0, 3.0?b?9.0, 8.0?c?15.0, 0.001?d?0.3, e?0.4, and a+b+c+d+e=100; M is impurity element. The present disclosure provides an iron-based amorphous strip which has a saturation magnetic induction less than 1.62T. The present disclosure also provides a method for preparing the iron-based amorphous alloy. Further, after appropriate heat treatment, excellent soft magnetic properties will be obtained. The alloy material can be used as core material in the manufacture of power transformer, generator and engine.

Abstract: An arbitrary curved-surface display device which has unit display pixels including active inorganic micro-light emitting diode unit chips, wherein each active inorganic micro-light emitting diode unit chip comprises an inorganic light-emitting diode unit device and a field-effect transistor. Conducting wires are on a substrate of the arbitrary-curved surface, and the conducting wires connect to each active inorganic micro-light emitting diode unit chip.

Abstract: Provided are fusion polypeptides comprising fragments from a first and a second FGF family member, nucleic acids encoding the fusion polypeptides, vectors and host cells containing the same, and methods of making and using such compositions in the treatment of FGF-related diseases, disorders, and conditions.

Abstract: The present application addresses the problem of providing a method for efficiently producing a dialkyl carbonate. The problem can be solved by a method for producing a dialkyl carbonate by reacting urea and at least one alkyl carbamate with an aliphatic alcohol in the presence of a catalyst, the method including introducing a gas for expelling ammonia generated by the reaction into a reactor in which the reaction is being conducted and discharging the ammonia generated in the reactor and the introduced gas, the reaction being conducted so that the gas introduction satisfies relationship (1). 52.0<((A+B)×22400+L×M/17.03×22400)/L<91.0??(1) (In formula (1), A, B, L, and M are as defined above.

Abstract: To achieve a method for producing a carbonic ester at a high yield by a simple process while suppressing formation of by-products, for example, a method for producing an aliphatic carbonic ester. The above problem is solved by a method for producing a carbonic ester, the method including a carbonic ester formation reaction in which an alcohol and carbon dioxide are reacted in the presence of an aromatic nitrile compound and a catalyst, wherein the water content in the alcohol used in the carbonic ester formation reaction is 0.10% by mass or less.

Abstract: The techniques described herein may provide deadlock detection and prevention with improved performance and reduced overhead over existing systems. For example, in an embodiment, a method for improving performance of software code by preventing deadlocks may comprise executing software code in a computer system comprising a processor, memory accessible by the processor, and program instructions and data for the software code stored in the memory, the program instructions executable by the processor to execute the software code, logging information relating to occurrence of deadlock conditions among threads in the executing software code, detecting occurrence of deadlock conditions in the software code based on the logged information, and modifying the software code or data used by the software code so as to prevent occurrence of at least one detected deadlock condition.

Abstract: The techniques described herein may include memory allocation techniques that provide improved security and performance. In embodiments, a method implemented in a computer system may include a processor and a memory, the method may comprise mapping a block of memory, dividing the block of memory into a plurality of heaps, dividing each heap into a plurality of sub-heaps, wherein each sub-heap is associated with one thread of software executing in the computer system, dividing each sub-heap into a plurality of bags, wherein each bag is associated with one size class of objects, and storing a plurality of objects in at least some of the bags, wherein each object is stored in a bag having size class corresponding to a size of the object.

Abstract: Provided is a method for regenerating an aromatic amide compound into a corresponding aromatic nitrile compound, the method realizing a dehydration reaction of providing a target compound selectively at a high yield, with generation of a by-product being suppressed. Also provided is a method for producing an aromatic nitrile compound that decreases the number of steps of the dehydration reaction and significantly improves the reaction speed even at a pressure close to normal pressure. In addition, the above-described production method is applied to a carbonate ester production method to provide a method for producing a carbonate ester efficiently. The above-described methods are realized by a method for producing an aromatic nitrile compound including a dehydration reaction of dehydrating an aromatic amide compound, in which the dehydration reaction uses, as a solvent, any of 1,2-dimethoxybenzene, 1,3-dimethoxybenzene and 1,3,5-trimethoxybenzene.

Abstract: Provided is a method for regenerating an aromatic amide compound into a corresponding aromatic nitrile compound, the method realizing a dehydration reaction of providing a target compound selectively at a high yield, with generation of a by-product being suppressed. Also provided is a method for producing an aromatic nitrile compound that decreases the number of steps of the dehydration reaction and significantly improves the reaction speed even at a pressure close to normal pressure. In addition, the above-described production method is applied to a carbonate ester production method to provide a method for producing a carbonate ester efficiently. The above-described methods are realized by a method for producing an aromatic nitrile compound including a dehydration reaction of dehydrating an aromatic amide compound, in which the dehydration reaction uses, as a solvent, any of 1,2-dimethoxybenzene, 1,3-dimethoxybenzene and 1,3,5-trimethoxybenzene.

Abstract: Realized is a method for restoring the activity of a catalyst for producing a carbonate ester by a simple technique with no use of a complicated step such as calcining or the like to allow the catalyst to be reusable, and a method for producing a carbonate ester at a high yield by use of the catalyst thus regenerated. The above-described problem has been solved by a method for regenerating a catalyst containing CeO2, the catalyst being usable for a carbonate ester generation reaction of generating a carbonate ester from carbon dioxide and an alcohol, the method comprising (a) a separation step of separating the catalyst as a crude catalyst from a reaction solution of carbon dioxide and the alcohol; and (b) a catalyst processing step of washing the crude catalyst with a washing alcohol to provide a purified catalyst.