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Kamatchi S Gopalakrishnan

from Dublin, CA
Age ~48
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Also known as:
Kamatchi Soundaram Gopalakrishnan, Kamatchi S Krishnan, Kamatchi S Gopalakrishman, Gopalakrishnan H
Related to:
Kamatchi S Krishnan, 48
Connected to:
Asokan Gopalakrishnan, 53Banumathy Gopalakrishnan, 52Bharath Gopalakrishnan, 50Gauri R Gopalakrishnan, 54Kumaraswamy Gopalakrishnan, 48Manjula Gopalakrishnan, 59Mukunda Gopalakrishna, 49Mythili Gopalakrishnan, 59Poornima Gopalakrishnan, 45Rahul Y Gopalakrishnan, 35

Kamatchi Gopalakrishnan Phones & Addresses

  • Dublin, CA
  • Merced, CA
  • 96 Marylinn Dr, Milpitas, CA 95035 (408) 942-4422
  • 1235 Wildwood Ave, Sunnyvale, CA 94089 (408) 732-7996
  • 345 Kiely Blvd, San Jose, CA 95129 (408) 554-0141
  • Santa Clara, CA
  • 1235 Wildwood Ave, Sunnyvale, CA 94089 (408) 591-9118

Work

Position: Production Occupations

Education

Degree: High school graduate or higher

Publications

Us Patents

Methods And Apparatus For Cluster Licensing In Wireless Switch Architecture

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US Patent:
7869346, Jan 11, 2011
Filed:
Feb 28, 2006
Appl. No.:
11/364815
Inventors:
Kamatchi Soundaram Gopalakrishnan - Milpitas CA, US
Ajay Malik - Santa Clara CA, US
Assignee:
Symbol Technologies, Inc. - Holtsville NY
International Classification:
G01R 31/08
US Classification:
370218, 370216, 370217, 370252, 370254
Abstract:
Wireless switch licenses are assigned on a cluster basis rather than being limited to individual switches. A switch cluster is made up of two or more wireless switches that each having an assigned number of licenses. Each of the wireless switches is configured to establish the switch cluster with the other wireless switches, and to verify the identity of each other wireless switch in the switch cluster during operation. License restrictions are enforced based upon a total number of licenses for the switch cluster so that the sum of the numbers of licenses assigned to the wireless switches in the cluster are available for use even if one or more of the other wireless switches in the cluster become unavailable.

Distributed Synchronous Ethernet Using A Centralized Controller

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US Patent:
8638657, Jan 28, 2014
Filed:
Apr 6, 2011
Appl. No.:
13/081055
Inventors:
Kamatchi Soundaram Gopalakrishnan - Milpitas CA, US
Rajagopalan Subbiah - San Jose CA, US
Prakash Kamath - San Jose CA, US
Rohit Puri - Sunnyvale CA, US
Sachchidanand Vaidya - San Jose CA, US
Assignee:
Juniper Networks, Inc. - Sunnyvale CA
International Classification:
G01R 31/08
H04L 12/28
US Classification:
370216, 370419
Abstract:
A network device may receive first qualification indicators, for a first signal, from all line cards of the network device. The network device may, in response to the first qualification indicators, transmit instructions to all of the line cards to use the first signal. The network device may further receive second qualification indicators, for a second signal, from all of the line cards. In response to the second qualification indicators, the network device may store information for the second signal in order to use the second signal as a backup signal.

Methods And Systems For Centralized Cluster Management In Wireless Switch Architecture

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US Patent:
20080080438, Apr 3, 2008
Filed:
Sep 29, 2006
Appl. No.:
11/529988
Inventors:
Kamatchi Soundaram Gopalakrishnan - Milpitas CA, US
Ajay Malik - San Jose CA, US
International Classification:
H04Q 7/24
H04L 12/56
US Classification:
370338, 370400
Abstract:
Wireless switch are monitored or configured on a cluster basis rather than being limited to configuration on an individual switches. A switch cluster is made up of two or more wireless switches that share a cluster number or other identifier. A command is received from a user interface module at a first node in the cluster, and an instruction related to the command is transmitted from the first node to the other nodes in the cluster. After receiving responses from at least some of the other nodes in the cluster as to the effect of the instruction, the first node provides an updated response to the administrator. The administrator is therefore able to configure or monitor each of the nodes in the cluster from a single administrative node.

Providing Timing Information From A Network Via A Virtual Network Address

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US Patent:
20230036049, Feb 2, 2023
Filed:
Oct 7, 2022
Appl. No.:
17/938717
Inventors:
- Sunnyvale CA, US
Savithri H. VENKATACHALAPATHY - Saratoga CA, US
Kamatchi S. GOPALAKRISHNAN - Dublin CA, US
International Classification:
H04L 69/28
H04L 12/18
H04L 45/00
H04L 45/50
H04L 45/64
H04L 61/5007
H04L 12/46
Abstract:
A network device may receive, from a timing source of a network, timing information. The network device may identify a client device to which the timing information is to be provided, wherein the network device provides an interface between the client device and the network. The network device may select a virtual network address to associate with a timing agent of the network device, wherein the virtual network address is within an address range that is reachable by the client device. The network device may provide to the client device, and via a network layer communication, a timing control packet comprising the timing information, wherein the timing control packet identifies the virtual network address as a source network address of the timing control packet, and wherein the timing information is to be used by the client device to update a clock of the client device.

Clock Fault Detection And Correction Between Synchronized Network Devices

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US Patent:
20210367693, Nov 25, 2021
Filed:
Jul 1, 2020
Appl. No.:
16/918684
Inventors:
- Sunnyvale CA, US
Kamatchi S. GOPALAKRISHNAN - Dublin CA, US
International Classification:
H04J 3/06
H04L 7/033
Abstract:
A first network device may receive, from a second network device, a clock quality indication that is associated with a clock of the second network device, wherein the clock of the second network device is a reference clock for a network that includes the first network device and the second network device. The first network device may determine, based on a clock signal of the second network device, that a quality metric of the clock does not satisfy a threshold. The first network device may provide, to the second network device, a clock fault notification to cause the second network device to downgrade the clock quality indication transmitted by the second network device. The first network device may select a new reference clock for the first network device based on receiving the downgraded clock quality indication from the second network device.

Symmetric Path/Link Over Lag Interface Using Lldp For Time Synchronization Between Two Nodes Using Ptp

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US Patent:
20210119718, Apr 22, 2021
Filed:
Dec 29, 2020
Appl. No.:
17/247881
Inventors:
- Sunnyvale CA, US
Kamatchi Soundaram GOPALAKRISHNAN - Dublin CA, US
M. Ramana REDDY - Anantapur, IN
International Classification:
H04J 3/06
H04L 12/851
H04L 12/709
H04L 12/24
Abstract:
A network device may assign, to a port of a plurality of ports on the network device, a precision timing protocol (PTP) port priority for PTP communications between the network device and another network device. The network device and the other network device may be communicatively connected via a plurality of links in a link aggregation group (LAG). Each port, of the plurality of ports, may be associated with a respective link, of the plurality of links, in the LAG. The network device may generate a link layer discovery protocol (LLDP) frame that includes information identifying the PTP port priority assigned to the port. The network device may transmit the LLDP frame to the other network device to identify, to the other network device, the PTP port priority.

Symmetric Path/Link Over Lag Interface Using Lldp For Time Synchronization Between Two Nodes Using Ptp

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US Patent:
20190356403, Nov 21, 2019
Filed:
May 17, 2018
Appl. No.:
15/982901
Inventors:
- Sunnyvale CA, US
Kamatchi S. Gopalakrishnan - Dublin CA, US
Ramana M. Reddy - Anantapur, IN
International Classification:
H04J 3/06
H04L 12/709
H04L 12/24
H04L 12/851
Abstract:
A network device may assign, to a port of a plurality of ports on the network device, a precision timing protocol (PTP) port priority for PTP communications between the network device and another network device. The network device and the other network device may be communicatively connected via a plurality of links in a link aggregation group (LAG). Each port, of the plurality of ports, may be associated with a respective link, of the plurality of links, in the LAG. The network device may generate a link layer discovery protocol (LLDP) frame that includes information identifying the PTP port priority assigned to the port. The network device may transmit the LLDP frame to the other network device to identify, to the other network device, the PTP port priority.
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Kamatchi S Gopalakrishnan from Dublin, CA, age ~48 Get Report