Patent application number | Description | Published |
20130091505 | Priority Level Arbitration Method and Device - The present invention discloses a method and device for arbitrating priority levels. The method comprises: setting a plurality of first stage polling arbiters and a second stage priority level arbiter respectively, wherein the number of the first stage polling arbiters is equal to the number of priority levels contained in a plurality of source ends; receiving task request signals for requesting tasks from the plurality of source ends and assigning request tasks with the same priority level to the same first stage polling arbiter; each of the first stage polling arbiters polling the received request tasks with the same priority level respectively to obtain one request task and transmitting the request task to the second stage priority level arbiter; and the second stage priority level arbiter receiving the plurality of request tasks and outputting an output result of request tasks with the highest priority level to a destination end. | 04-11-2013 |
20140031707 | APPARATUS AND METHOD FOR AUTOMATICALLY IDENTIFYING FETAL HEART RATE BASELINE - An apparatus and method for automatically identifying FHR baseline includes collecting FHR data within a preset duration to obtain an FHR data sequence h′(n); preprocessing the collected FHR data sequence h′(n) to obtain a corresponding FHR data sequence during the preprocessing; selecting a primary dominant peak value according to the frequency distribution of the corresponding FHR data sequence during the preprocessing; and identifying a dynamic baseline according to the corresponding FHR data sequence and the primary dominant peak value during the preprocessing to obtain the dynamic baseline, and display and print the dynamic baseline. The apparatus and method effectively prevents the impact caused by regular change of the FHR to the baseline solution, and accurately reflects the FHR baseline and changes thereof of a fetus under different conditions. | 01-30-2014 |
20140243674 | DEVICE AND METHOD FOR IMPROVING IDENTIFICATION ACCURACY OF FETAL HEART RATE DECELERATION - A device and method for improving the identification accuracy of fetal heart rate deceleration. The method includes: collecting fetal heart rate data ( | 08-28-2014 |
20150304224 | Method and Universal Interface Chip for Achieving High-Speed Data Transmission - A method for achieving high-speed data transmission is disclosed. The method includes: repacking a data packet to be transmitted using a preset bit width and adding a check code; for a correct response message, releasing system resources immediately, and for an incorrect response message, implementing an automatic retransmission operation on the data packet, thereby reducing the complexity and power consumption level of a chip, and ensuring the data exchange speed and quality. Also provided is a universal interface chip for achieving high-speed data transmission. | 10-22-2015 |
Patent application number | Description | Published |
20150076705 | REDUCED CAPACITANCE INTERLAYER STRUCTURES AND FABRICATION METHODS - Interlayer fabrication methods and interlayer structure are provided having reduced dielectric constants. The methods include, for example: providing a first uncured insulating layer with an evaporable material; and disposing a second uncured insulating layer having porogens above the first uncured insulating layer. The interlayer structure includes both the first and second insulating layers, and the methods further include curing the interlayer structure, leaving air gaps in the first insulating layer, and pores in the second insulating layer, where the air gaps are larger than the pores, and where the air gaps and pores reduce the dielectric constant of the interlayer structure. | 03-19-2015 |
20150348907 | REDUCED CAPACITANCE INTERLAYER STRUCTURES AND FABRICATION METHODS - Interlayer fabrication methods and interlayer structure are provided having reduced dielectric constants. The methods include, for example: providing a first uncured insulating layer with an evaporable material; and disposing a second uncured insulating layer having porogens above the first uncured insulating layer. The interlayer structure includes both the first and second insulating layers, and the methods further include curing the interlayer structure, leaving air gaps in the first insulating layer, and pores in the second insulating layer, where the air gaps are larger than the pores, and where the air gaps and pores reduce the dielectric constant of the interlayer structure. | 12-03-2015 |