Abstract: A beam processing method, a network device, a base station, and a computer readable storage medium are disclosed. The method may include acquiring first beam identification information and beam time domain information sent by the base station, wherein the beam time domain information comprises beamforming time information that is indicative of a time corresponding to beamforming by the network node for signal directing; determining a first time domain according to the beamforming time information; and forming a first beam for signal directing in the first time domain, wherein the first beam is determined by the network node according to the first beam identification information.

Abstract: Provided are a compound for treating metabolic diseases having the structure as shown in formula (I) or formula (II), or a racemate, stereoisomer, geometric isomer, tautomer, solvate, hydrate, metabolite, pharmaceutically acceptable salt or prodrug thereof. The compound is an activator of FXR and/or a TGR5 receptor, and thus has the activity of activating FXR and/or a TGR5 receptor, and can be used in the preparation of drugs for treating chronic liver diseases, metabolic diseases or portal hypertension.

Abstract: Provided are a compound for treating metabolic diseases having the structure as shown in formula (I) or formula (II), or a racemate, stereoisomer, geometric isomer, tautomer, solvate, hydrate, metabolite, pharmaceutically acceptable salt or prodrug thereof. The compound is an activator of FXR and/or a TGR5 receptor, and thus has the activity of activating FXR and/or a TGR5 receptor, and can be used in the preparation of drugs for treating chronic liver diseases, metabolic diseases or portal hypertension.

Abstract: The present invention discloses a steel wire tempering liquid wiping device. The device comprises a shell. A thermal insulation layer is provided on an inner wall of the shell, and a steel wire inlet and a steel wire outlet are provided on the shell. A wiping fiber rack is installed in a wiping cavity, and a tempering liquid wiping fiber is installed on the wiping fiber rack and is high temperature resistant fibers. After tempering, the steel wires pass through the tempering liquid wiping fiber. At the bottom of the wiping fiber rack, a tempering liquid recovery device is arranged. A heating device is installed in the shell. The steel wires come out from a high temperature tempering furnace, and then enter the steel wire tempering liquid wiping device.

Abstract: The present invention discloses a high-strength tin-plated bronze tire bead steel wire, which comprises a steel wire base body. The surface of the steel wire base body is provided with at least two plating layers, and the tin content of the plating layers decreases layer by layer from inside to outside. The plating layer directly adjoining the surface of the steel wire base body has a high tin content, the adhesive force between the plating layer and the steel wire base body is strong, and the plating layer which has a high tin content can more effectively prevent the steel wire base body from rusting. The plating layers with the tin content gradually decreasing from inside to outside are combined closely with each other, and a strong adhesive force exists between the outermost plating layer with the relatively lowest tin content and tire rubber.

Abstract: The present invention discloses a steel wire tempering liquid wiping device. The device comprises a shell. A thermal insulation layer is provided on an inner wall of the shell, and a steel wire inlet and a steel wire outlet are provided on the shell. A wiping fiber rack is installed in a wiping cavity, and a tempering liquid wiping fiber is installed on the wiping fiber rack and is high temperature resistant fibers. After tempering, the steel wires pass through the tempering liquid wiping fiber. At the bottom of the wiping fiber rack, a tempering liquid recovery device is arranged. A heating device is installed in the shell. The steel wires come out from a high temperature tempering furnace, and then enter the steel wire tempering liquid wiping device.

Abstract: A close-coupling shared storage architecture of double-wing expandable multiprocessor is provided in the close-coupling shared storage architecture with p processors scale, the close-coupling shared storage architecture of double-wing expandable multiprocessor comprises: j processor modules PMs; wherein, each processor module is formed by coupling and cross-jointing i processors Cs, and each processor is directly connected with a node controller NC through only one link; each processor module PM comprises 2 pairing node controllers NCs, and each node controller NC is connected with the processors through m links and is connected with an interconnect network through n links; the interconnect network comprises two groups, and each group comprises k cross switch route chips NRs, each of which has q ports. By adopting the connection method above, the close-coupling shared storage architecture of double-wing expandable multiprocessor is formed.

Abstract: A close-coupling shared storage architecture of double-wing expandable multiprocessor is provided in the close-coupling shared storage architecture with p processors scale, the close-coupling shared storage architecture of double-wing expandable multiprocessor comprises: j processor modules PMs; wherein, each processor module is formed by coupling and cross-jointing i processors Cs, and each processor is directly connected with a node controller NC through only one link; each processor module PM comprises 2 pairing node controllers NCs, and each node controller NC is connected with the processors through m links and is connected with an interconnect network through n links; the interconnect network comprises two groups, and each group comprises k cross switch route chips NRs, each of which has q ports. By adopting the connection method above, the close-coupling shared storage architecture of double-wing expandable multiprocessor is formed.