Abstract: A NCL circuit is disclosed with a combinational logic circuit between DI register banks, an input register bank having at least a first input register positioned upstream of an output register bank having at least a first output register. A completion logic circuit that sends a handshaking signal to the upstream input registers indicating that all the downstream circuits are ready for any one of two wavefronts, meaningful data wavefront and a NULL wavefront from the combination logic circuit. The NCL circuit may further have one or more observation points on outrail groups of the input registers, observing propagation of startup values to the combination logic circuit. The NCL circuit may also have one or more multiplexers allowing for selection of a primary input or the feedback signal, to control the start up values to the combinational logic circuit will powering on.
Abstract: A high voltage pulse generating system has a latching element coupled in between a ferroelectric generator (FEG) and a load, such as a vector inversion generator. Such a latching element prevents the return of current to the FEG when the FEG undergoes mechanical destruction after depolarization, thereby increasing the useful amount of energy extracted from the FEG. In some embodiments, multiple FEGs are configured with multiple latching elements to deliver multiple high-voltage, high-current pulses.
Type:
Grant
Filed:
August 10, 2017
Date of Patent:
October 12, 2021
Assignee:
Radiance Technologies, Inc.
Inventors:
Zach Roberts, Spencer Rendall, M. Frank Rose
Abstract: A high voltage pulse generating system has a latching element coupled in between a ferroelectric generator (FEG) and a load, such as a vector inversion generator. Such a latching element prevents the return of current to the FEG when the FEG undergoes mechanical destruction after depolarization, thereby increasing the useful amount of energy extracted from the FEG. In some embodiments, multiple FEGs are configured with multiple latching elements to deliver multiple high-voltage, high-current pulses.
Type:
Grant
Filed:
October 8, 2013
Date of Patent:
November 20, 2018
Assignee:
Radiance Technologies, Inc.
Inventors:
Zach Roberts, Spencer Rendell, M. Frank Rose
Abstract: A vector inversion generator utilizes closed-path ferrites to modify the characteristics of the generator. The closed-path ferrites increase an inductance within a portion of the generator and additionally provide a protective shield for associated electronic circuits. By increasing the inductance, the closed-path ferrites increase the voltage efficiency and the energy efficiency of the generator.
Abstract: Data transfer rates on a network are controlled in conjunction with TCP/IP protocols by limiting the available space in a receive buffer located on the receiver. Limits are generated by either moderating the rate that data is removed from the receive buffer or changing the receive buffer's size. Transfer rates are reduced to decrease the impact large transfers have on other network traffic and to reduce the total number of lost data packets. Reduced rates and priorities can be managed by scheduling systems.
Type:
Grant
Filed:
May 11, 2001
Date of Patent:
November 28, 2006
Assignee:
Radiance Technologies, Inc.
Inventors:
Fouad A. Tobagi, David Lemke, Srikanth Subramanian
Abstract: A vector inversion generator utilizes closed-path ferrites to modify the characteristics of the generator. The closed-path ferrites increase an inductance within a portion of the generator and additionally provide a protective shield for associated electronic circuits. By increasing the inductance, the closed-path ferrites increase the voltage efficiency and the energy efficiency of the generator.
Abstract: A system and method for scheduling transfers of data through a network, the system comprising a transfer module at each node in the network, the transfer module being configured to schedule data transfers according to available resources at each node. In one embodiment, the transfer module includes a scheduling module, a routing module, and an execution module. The scheduling module at each node evaluates a single hop request in view of objectives, such as a deadline, and the available resources at that node, for example transmit bandwidth, receive bandwidth, and storage space, all of which may change as a function of time.
Type:
Grant
Filed:
August 21, 2001
Date of Patent:
June 20, 2006
Assignee:
Radiance Technologies, Inc.
Inventors:
John C. Ruttenberg, Walter D. Lichtenstein, David Agraz, Fouad A. Tobagi, Ashfaq A. Munshi, David Lemke