Patents by Inventor David A. Higgen
David A. Higgen has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 6591302Abstract: A network interface device provides a fast-path that avoids most host TCP and IP protocol processing for most messages. The host retains a fallback slow-path processing capability. In one embodiment, generation of a response to a TCP/IP packet received onto the network interface device is accelerated by determining the TCP and IP source and destination information from the incoming packet, retrieving an appropriate template header, using a finite state machine to fill in the TCP and IP fields in the template header without sequential TCP and IP protocol processing, combining the filled-in template header with a data payload to form a packet, and then outputting the packet from the network interface device by pushing a pointer to the packet onto a transmit queue. A transmit sequencer retrieves the pointer from the transmit queue and causes the corresponding packet to be output from the network interface device.Type: GrantFiled: March 6, 2002Date of Patent: July 8, 2003Assignee: Alacritech, Inc.Inventors: Laurence B. Boucher, Stephen E. J. Blightman, Peter K. Craft, David A. Higgen, Clive M. Philbrick, Daryl D. Starr
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Publication number: 20030079033Abstract: A host CPU runs a network protocol processing stack that provides instructions not only to process network messages but also to allocate processing of certain network messages to a specialized network communication device, offloading some of the most time consuming protocol processing from the host CPU to the network communication device. By allocating common and time consuming network processes to the device, while retaining the ability to handle less time intensive and more varied processing on the host stack, the network communication device can be relatively simple and cost effective. The host CPU, operating according to instructions from the stack, and the network communication device together determine whether and to what extent a given message is processed by the host CPU or by the network communication device.Type: ApplicationFiled: July 29, 2002Publication date: April 24, 2003Applicant: Alacritech, Inc.Inventors: Peter K. Craft, Clive M. Philbrick, Laurence B. Boucher, David A. Higgen
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Publication number: 20020161919Abstract: A network interface device provides a fast-path that avoids most host TCP and IP protocol processing for most messages. The host retains a fallback slow-path processing capability. In one embodiment, generation of a response to a TCP/IP packet received onto the network interface device is accelerated by determining the TCP and IP source and destination information from the incoming packet, retrieving an appropriate template header, using a finite state machine to fill in the TCP and IP fields in the template header without sequential TCP and IP protocol processing, combining the filled-in template header with a data payload to form a packet, and then outputting the packet from the network interface device by pushing a pointer to the packet onto a transmit queue. A transmit sequencer retrieves the pointer from the transmit queue and causes the corresponding packet to be output from the network interface device.Type: ApplicationFiled: May 6, 2002Publication date: October 31, 2002Inventors: Laurence B. Boucher, Stephen E. J. Blightman, Peter K. Craft, David A. Higgen, Clive M. Philbrick, Daryl D. Starr
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Publication number: 20020156927Abstract: A system for protocol processing in a computer network has a TCP/IP Offload Network Interface Device (TONID) associated with a host computer. The TONID provides a fast-path that avoids protocol processing for most large multi-packet messages, greatly accelerating data communication. The TONID also assists the host for those message packets that are chosen for processing by host software layers. A communication control block for a message is defined that allows DMA controllers of the TONID to move data, free of headers, directly to or from a destination or source in the host. The context is stored in the TONID as a communication control block (CCB) that can be passed back to the host for message processing by the host. The TONID contains specialized hardware circuits that are much faster at their specific tasks than a general purpose CPU.Type: ApplicationFiled: March 12, 2002Publication date: October 24, 2002Applicant: Alacritech, Inc.Inventors: Laurence B. Boucher, Stephen E. J. Blightman, Peter K. Craft, David A. Higgen, Clive M. Philbrick, Daryl D. Starr
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Publication number: 20020147839Abstract: A network interface device provides a fast-path that avoids most host TCP and IP protocol processing for most messages. The host retains a fallback slow-path processing capability. In one embodiment, generation of a response to a TCP/IP packet received onto the network interface device is accelerated by determining the TCP and IP source and destination information from the incoming packet, retrieving an appropriate template header, using a finite state machine to fill in the TCP and IP fields in the template header without sequential TCP and IP protocol processing, combining the filled-in template header with a data payload to form a packet, and then outputting the packet from the network interface device by pushing a pointer to the packet onto a transmit queue. A transmit sequencer retrieves the pointer from the transmit queue and causes the corresponding packet to be output from the network interface device.Type: ApplicationFiled: March 6, 2002Publication date: October 10, 2002Inventors: Laurence B. Boucher, Stephen E.J. Blightman, Peter K. Craft, David A. Higgen, Clive M. Philbrick, Daryl D. Starr
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Patent number: 6434620Abstract: An intelligent network interface card (INIC) or communication processing device (CPD) works with a host computer for data communication. The device provides a fast-path that avoids protocol processing for most messages, greatly accelerating data transfer and offloading time-intensive processing tasks from the host CPU. The host retains a fallback processing capability for messages that do not fit fast-path criteria, with the device providing assistance such as validation even for slow-path messages, and messages being selected for either fast-path or slow-path processing. A context for a connection is defined that allows the device to move data, free of headers, directly to or from a destination or source in the host. The context can be passed back to the host for message processing by the host. The device contains specialized hardware circuits that are much faster at their specific tasks than a general purpose CPU.Type: GrantFiled: August 27, 1999Date of Patent: August 13, 2002Assignee: Alacritech, Inc.Inventors: Laurence B. Boucher, Stephen E. J. Blightman, Peter K. Craft, David A. Higgen, Clive M. Philbrick, Daryl D. Starr
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Patent number: 6427173Abstract: An intelligent network interface card (INIC) or communication processing device (CPD) works with a host computer for data communication. The device provides a fast-path that avoids protocol processing for most messages, greatly accelerating data transfer and offloading time-intensive processing tasks from the host CPU. The host retains a fallback processing capability for messages that do not fit fast-path criteria, with the device providing assistance such as validation even for slow-path messages, and messages being selected for either fast-path or slow-path processing. A context for a connection is defined that allows the device to move data, free of headers, directly to or from a destination or source in the host. The context can be passed back to the host for message processing by the host. The device contains specialized hardware circuits that are much faster at their specific tasks than a general purpose CPU.Type: GrantFiled: December 15, 1999Date of Patent: July 30, 2002Assignee: Alacritech, Inc.Inventors: Laurence B. Boucher, Stephen E. J. Blightman, Peter K. Craft, David A. Higgen, Clive M. Philbrick, Daryl D. Starr
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Patent number: 6427171Abstract: A host CPU runs a network protocol processing stack that provides instructions not only to process network messages but also to allocate processing of certain network messages to a specialized network communication device, offloading some of the most time consuming protocol processing from the host CPU to the network communication device. By allocating common and time consuming network processes to the device, while retaining the ability to handle less time intensive and more varied processing on the host stack, the network communication device can be relatively simple and cost effective. The host CPU, operating according to instructions from the stack, and the network communication device together determine whether and to what extent a given message is processed by the host CPU or by the network communication device.Type: GrantFiled: February 28, 2000Date of Patent: July 30, 2002Assignee: Alacritech, Inc.Inventors: Peter K. Craft, Olive M. Philbrick, Laurence B. Boucher, David A. Higgen
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Publication number: 20020095519Abstract: A network interface device has a fast-path ACK generating and transmitting mechanism. ACKs are generated using a finite state machine (FSM). The FSM retrieves a template header and fills in TCP and IP fields in the template. The FSM is not a stack, but rather fills in the TCP and IP fields without performing transport layer processing and network layer processing sequentially as separate tasks. The filled-in template is placed into a buffer and a pointer to the buffer is pushed onto a high-priority transmit queue. Pointers for ordinary data packets are pushed onto a low-priority transmit queue. A transmit sequencer outputs a packet by popping a transmit queue, obtaining a pointer, and causing information pointed to by the pointer to be output from the network interface device as a packet. The sequencer pops the high-priority queue in preference to the low-priority queue, thereby accelerating ACK generation and transmission.Type: ApplicationFiled: February 26, 2002Publication date: July 18, 2002Applicant: Alacritech, Inc.Inventors: Clive M. Philbrick, Laurence B. Boucher, Stephen E.J. Blightman, Peter K. Craft, David A. Higgen, Daryl D. Starr
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Publication number: 20020087732Abstract: A network interface device provides a fast-path that avoids most host TCP and IP protocol processing for most messages. The host retains a fallback slow-path processing capability. In one embodiment, generation of a response to a TCP/IP packet received onto the network interface device is accelerated by determining the TCP and IP source and destination information from the incoming packet, retrieving an appropriate template header, using a finite state machine to fill in the TCP and IP fields in the template header without sequential TCP and IP protocol processing, combining the filled-in template header with a data payload to form a packet, and then outputting the packet from the network interface device by pushing a pointer to the packet onto a transmit queue. A transmit sequencer retrieves the pointer from the transmit queue and causes the corresponding packet to be output from the network interface device.Type: ApplicationFiled: December 17, 2001Publication date: July 4, 2002Applicant: Alacritech, Inc.Inventors: Laurence B. Boucher, Stephen E.J. Blightman, Peter K. Craft, David A. Higgen, Clive M. Philbrick, Daryl D. Starr
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Patent number: 6393487Abstract: A system for protocol processing in a computer network has an intelligent network interface card (INIC) or communication processing device (CPD) associated with a host computer. The INIC provides a fast-path that avoids protocol processing for most large multi-packet messages, greatly accelerating data communication. The INIC also assists the host for those message packets that are chosen for processing by host software layers. A communication control block for a message is defined that allows DMA controllers of the INIC to move data, free of headers, directly to or from a destination or source in the host. The context is stored in the INIC as a communication control block (CCB) that can be passed back to the host for message processing by the host. The INIC contains specialized hardware circuits that are much faster at their specific tasks than a general purpose CPU.Type: GrantFiled: March 12, 2001Date of Patent: May 21, 2002Assignee: Alacritech, Inc.Inventors: Laurence B. Boucher, Stephen E. J. Blightman, Peter K. Craft, David A. Higgen, Clive M. Philbrick, Daryl D. Starr
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Patent number: 6389479Abstract: An intelligent network interface card (INIC) or communication processing device (CPD) works with a host computer for data communication. The device provides a fast-path that avoids protocol processing for most messages, greatly accelerating data transfer and offloading time-intensive processing tasks from the host CPU. The host retains a fallback processing capability for messages that do not fit fast-path criteria, with the device providing assistance such as validation even for slow-path messages, and messages being selected for either fast-path or slow-path processing. A context for a connection is defined that allows the device to move data, free of headers, directly to or from a destination or source in the host. The context can be passed back to the host for message processing by the host. The device contains specialized hardware circuits that are much faster at their specific tasks than a general purpose CPU.Type: GrantFiled: August 28, 1998Date of Patent: May 14, 2002Assignee: Alacritech, Inc.Inventors: Laurence B. Boucher, Stephen E. J. Blightman, Peter K. Craft, David A. Higgen, Clive M. Philbrick, Daryl D. Starr
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Patent number: 6334153Abstract: A system for protocol processing in a computer network has an intelligent network interface card (INIC) or communication processing device (CPD) associated with a host computer. The INIC provides a fast-path that avoids protocol processing for most large multi-packet messages, greatly accelerating data communication. The INIC also assists the host for those message packets that are chosen for processing by host software layers. A communication control block for a message is defined that allows DMA controllers of the INIC to move data, free of headers, directly to or from a destination or source in the host. The context is stored in the INIC as a communication control block (CCB) that can be passed back to the host for message processing by the host. The INIC contains specialized hardware circuits that are much faster at their specific tasks than a general purpose CPU.Type: GrantFiled: December 26, 2000Date of Patent: December 25, 2001Assignee: Alacritech, Inc.Inventors: Laurence B. Boucher, Stephen E. J. Blightman, Peter K. Craft, David A. Higgen, Clive M. Philbrick, Daryl D. Starr
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Publication number: 20010047433Abstract: A Network Interface device (NI device) coupled to a host computer receives a multi-packet message from a network (for example, the Internet) and DMAs the data portions of the various packets directly into a destination in application memory on the host computer. The address of the destination is determined by supplying a first part of the first packet to an application program such that the application program returns the address of the destination. The address is supplied by the host computer to the NI device so that the NI device can DMA the data portions of the various packets directly into the destination. In some embodiments the NI device is an expansion card added to the host computer, whereas in other embodiments the NI device is a part of the host computer.Type: ApplicationFiled: February 20, 2001Publication date: November 29, 2001Applicant: Alacritech, Inc.Inventors: Laurence B. Boucher, Stephen E.J. Blightman, Peter K. Craft, David A. Higgen, Clive M. Philbrick, Daryl D. Starr
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Publication number: 20010036196Abstract: A first partial checksum for the header portion of a TCP header is generated on an intelligent network interface card (INIC) before all the data of the data payload of the TCP message has been transferred to the INIC. A pseudopacket with the first partial checksum and the data is assembled in DRAM on the INIC as the data arrives onto the INIC. When the last portion of the data of the data payload is received onto the INIC, a second partial checksum for the data payload is generated. The pseudopacket is read out of DRAM for transfer to a network. While the pseudopacket is being transferred, the second partial header is combined with the first partial header and the resulting final checksum is inserted into the pseudopacket so that a complete TCP packet with a correct checksum is output from the INIC to the network.Type: ApplicationFiled: March 9, 2001Publication date: November 1, 2001Inventors: Stephen E. J. Blightman, Laurence B. Boucher, Peter K. Craft, David A. Higgen, Clive M. Philbrick, Daryl D. Starr
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Publication number: 20010037397Abstract: A system for protocol processing in a computer network has an intelligent network interface card (INIC) or communication processing device (CPD) associated with a host computer. The CPD provides a fast-path that avoids protocol processing for most large multipacket messages, greatly accelerating data communication. The CPD also assists the host CPU for those message packets that are chosen for processing by host software layers. A context for a message is defined that allows DMA controllers of the CPD to move data, free of headers, directly to or from a destination or source in the host. The context can be stored as a communication control block (CCB) that is controlled by either the CPD or by the host CPU. The CPD contains specialized hardware circuits that process media access control, network and transport layer headers of a packet received from the network, saving the host CPU from that processing for fast-path messages.Type: ApplicationFiled: March 9, 2001Publication date: November 1, 2001Inventors: Laurence B. Boucher, Clive M. Philbrick, Daryl D. Starr, Stephen E. J. Blightman, Peter K. Craft, David A. Higgen
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Publication number: 20010027496Abstract: A system for protocol processing in a computer network has an intelligent network interface card (INIC) or communication processing device (CPD) associated with a host computer. The INIC provides a fast-path that avoids protocol processing for most large multi-packet messages, greatly accelerating data communication. The INIC also assists the host for those message packets that are chosen for processing by host software layers. A communication control block for a message is defined that allows DMA controllers of the INIC to move data, free of headers, directly to or from a destination or source in the host. The context is stored in the INIC as a communication control block (CCB) that can be passed back to the host for message processing by the host. The INIC contains specialized hardware circuits that are much faster at their specific tasks than a general purpose CPU.Type: ApplicationFiled: March 12, 2001Publication date: October 4, 2001Applicant: Alacritech, Inc.Inventors: Laurence B. Boucher, Stephen E. J. Blightman, Peter K. Craft, David A. Higgen, Clive M. Philbrick, Daryl D. Starr
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Publication number: 20010023460Abstract: A system for protocol processing in a computer network has an intelligent network interface card (INIC) or communication processing device (CPD) associated with a host computer. The INIC provides a fast-path that avoids protocol processing for most large multi-packet messages, greatly accelerating data communication. The INIC also assists the host for those message packets that are chosen for processing by host software layers. A communication control block for a message is defined that allows DMA controllers of the INIC to move data, free of headers, directly to or from a destination or source in the host. The context is stored in the INIC as a communication control block (CCB) that can be passed back to the host for message processing by the host. The INIC contains specialized hardware circuits that are much faster at their specific tasks than a general purpose CPU.Type: ApplicationFiled: December 26, 2000Publication date: September 20, 2001Applicant: Alacritech Inc.Inventors: Laurence B. Boucher, Stephen E.J. Blightman, Peter K. Craft, David A. Higgen, Clive M. Philbrick, Daryl D. Starr
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Patent number: 6247060Abstract: A system for protocol processing in a computer network has an intelligent network interface card (INIC) or communication processing device (CPD) associated with a host computer. The INIC provides a fast-path that avoids protocol processing for most large multipacket messages, greatly accelerating data communication. The INIC also assists the host for those message packets that are chosen for processing by host software layers. A communication control block for a message is defined that allows DMA controllers of the INIC to move data, free of headers, directly to or from a destination or source in the host. The context is stored in the INIC as a communication control block (CCB) that can be passed back to the host for message processing by the host. The INIC contains specialized hardware circuits that are much faster at their specific tasks than a general purpose CPU.Type: GrantFiled: November 12, 1999Date of Patent: June 12, 2001Assignee: Alacritech, Inc.Inventors: Laurence B. Boucher, Stephen E. J. Blightman, Peter K. Craft, David A. Higgen, Clive M. Philbrick, Daryl D. Starr
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Patent number: 6226680Abstract: A system for protocol processing in a computer network has an intelligent network interface card (INIC) or communication processing device (CPD) associated with a host computer. The INIC provides a fast-path that avoids protocol processing for most large multipacket messages, greatly accelerating data communication. The INIC also assists the host for those message packets that are chosen for processing by host software layers. A communication control block for a message is defined that allows DMA controllers of the INIC to move data, free of headers, directly to or from a destination or source in the host. The context is stored in the IMC as a communication control block (CCB) that can be passed back to the host for message processing by the host. The INIC contains specialized hardware circuits that are much faster at their specific tasks than a general purpose CPU.Type: GrantFiled: April 27, 1998Date of Patent: May 1, 2001Assignee: Alacritech, Inc.Inventors: Laurence B. Boucher, Stephen E. J. Blightman, Peter K. Craft, David A. Higgen, Clive M. Philbrick, Daryl D. Starr