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Company Information:

Company Name:
Lynguent, Inc.
Address:
PO Box 19325
Portland, OR 97280 0032
Phone:
(971) 242-1410
URL:
N/A
EIN:
931315313
DUNS:
142981153
Number of Employees:
10
Woman-Owned?:
No
Minority-Owned?:
No
HUBZone-Owned?:
No

Commercialization:

Has been acquired/merged with?:
N/A
Has had Spin-off?:
N/A
Has Had IPO?:
N/A
Year of IPO:
N/A
Has Patents?:
N/A
Number of Patents:
N/A
Total Sales to Date $:
$ 0.00
Total Investment to Date $
$ 0.00
POC Title:
N/A
POC Name:
N/A
POC Phone:
N/A
POC Email:
N/A
Narrative:
N/A

Award Totals:

Program/Phase Award Amount ($) Number of Awards
SBIR Phase I $468,759.00 5
SBIR Phase II $952,848.00 2

Award List:

Hierarchical CAD Tools for Radiation Hardened Mixed Signal Electronic Circuits

Award Year / Program / Phase:
2004 / SBIR / Phase I
Award Amount:
$99,000.00
Agency / Branch:
DOD / DARPA
Principal Investigator:
Martin Vlachq, President
Abstract:
The objective of the Phase I proposal is to show feasibility of the modeling and simulation of electro-radiation effects using an application programming interface (API) based approach. The techniques used in the demonstration will be: * Behavioral modifications of a standard MOS model. *… More

HIGH EFFICIENCY COMPACT MODELING OF RADIATION EFFECTS

Award Year / Program / Phase:
2005 / SBIR / Phase I
Award Amount:
$99,991.00
Agency / Branch:
DOD / DTRA
Principal Investigator:
Martin Vlach, President, Lyguent
Abstract:
The objective of this research is prove the feasibility of automatically migrating radiation effects predicted in TCAD level tools to compact modeling tools. This transition will enable compact models that possess radiation effects to be quickly generated, which can then be used in circuit design… More

Model-Based Design Tools for Extending COTS Components To Extreme Environments

Award Year / Program / Phase:
2005 / SBIR / Phase I
Award Amount:
$69,999.00
Agency:
NASA
Principal Investigator:
Martin Vlach, Principal Investigator
Abstract:
The innovation in this Phase I project is to prove the feasibility of using model-based design (MBD) tools to predict the performance and useful life of commercial-off-the-shelf (COTS) components and COTS-based systems outside of their rated temperature range. These tools will consist of novel… More

HIGH EFFICIENCY COMPACT MODELING OF RADIATION EFFECTS

Award Year / Program / Phase:
2006 / SBIR / Phase II
Award Amount:
$353,250.00
Agency / Branch:
DOD / DTRA
Principal Investigator:
James Holmes, VP Research & App. Consul
Abstract:
The objective of this research is to develop beta versions of tools for automatically migrating radiation effects predicted in TCAD level tools to compact modeling tools. This transition will enable compact models that possess radiation effects to be quickly generated, which can then be used in… More

Model-Based Design Tools for Extending COTS Components To Extreme Environments

Award Year / Program / Phase:
2006 / SBIR / Phase II
Award Amount:
$599,598.00
Agency:
NASA
Principal Investigator:
Martin Vlach, Principal Investigator
Abstract:
The innovation in this project is model-based design (MBD) tools for predicting the performance and useful life of commercial-off-the-shelf (COTS) components and COTS-based systems beyond their rated temperature range. Phase I results have shown the feasibility of these tools, which consist of novel… More

Radiation Induced Fault Analysis for Wide Temperature BiCMOS Circuits

Award Year / Program / Phase:
2010 / SBIR / Phase I
Award Amount:
$99,933.00
Agency:
NASA
Principal Investigator:
Jim Holmes, Principal Investigator
Abstract:
State of the art Radiation Hardened by Design (RHBD) techniques do not account for wide temperature variations in BiCMOS process. Silicon-Germanium BiCMOS process offer inherent advantages for operation in radiation environments where single event transient and total iodization dose effects on the… More

Radiation Fault Analysis for 45 Nanometer CMOS-SOI VLSI Circuits

Award Year / Program / Phase:
2010 / SBIR / Phase I
Award Amount:
$99,836.00
Agency / Branch:
DOD / DTRA
Principal Investigator:
James Holmes, Vice President
Abstract:
OBJECTIVE: The successful outcome of this effort will support the use of ultra-deep submicron integrated circuits in DoD satellite systems that will result in very significant savings in weight, power and reliability for systems that include Space Radar, Space Tracking and Surveillance Systems,… More