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Amit Vasudevan

from Aledo, TX
Age ~45
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Also known as:
Amit Vasudenvan
Phone and address:
628 Rockfall Way, Aledo, TX 76008
Connected to:
Ajit K Vasudevan, 58Akila Vasudevan, 44Arun I Vasudevan, 50Asha Vasudev, 56Bindhi Vasudevan, 45Geethakrishnan Vasudevan, 46Jayashree Vasudevan, 66Lata V Vasudevan, 55Padmapriya Vasudevan, 45Praveen Vasudev, 46

Amit Vasudevan Phones & Addresses

  • 628 Rockfall Way, Aledo, TX 76008
  • Fort Worth, TX
  • 4819 27Th St, Arlington, VA 22206 (571) 431-6750
  • 6324 Crombie St, Pittsburgh, PA 15217 (412) 521-6151
  • 914 Greek Row Dr, Arlington, TX 76013 (817) 801-1102
  • 1014 Pecan St, Arlington, TX 76010 (817) 801-1102

Resumes

Resumes

Amit Vasudevan Photo 1

System Security Researcher

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Location:
628 Rockfall Way, Aledo, TX 76008
Industry:
Computer & Network Security
Work:
Software Engineering Institute | Carnegie Mellon University
System Security Researcher
Carnegie Mellon University Sep 2007 - Oct 2010
Post-Doc
Carnegie Mellon University Sep 2007 - Oct 2010
Research Systems Scientist
The University of Texas at Arlington Jan 2004 - May 2007
Assistant Instructor
Education:
The University of Texas at Arlington 2002 - 2007
Master of Science, Doctorates, Masters, Doctor of Philosophy, Computer Science, Engineering, Computer Science and Engineering B. M. S. College of Engineering 1997 - 2001
Bachelor of Engineering, Bachelors, Computer Science, Engineering, Computer Science and Engineering
Skills:
Computer Security
Virtualization
Trusted Computing
Malware Analysis
Secure Systems
Operating Systems
X86 Assembly
Arm
C
Interests:
Malware Analysis and Operating Systems
Virtualization
Secure Systems
Trusted Computing
Amit Vasudevan Photo 2

Amit Vasudevan

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Publications

Us Patents

Framework For Stealth Dynamic Coarse And Fine-Grained Malware Analysis

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US Patent:
20080127114, May 29, 2008
Filed:
Nov 28, 2007
Appl. No.:
11/998347
Inventors:
Amit Vasudevan - Pittsburgh PA, US
International Classification:
G06F 9/44
US Classification:
717129
Abstract:
A framework and method for creating malware analysis tools for dynamic and stealth coarse- and fine-grained malware analysis is provided. In one embodiment a method stalls the execution of a desired code on any form of access to memory or other devices. This can be used to monitor the behavior of the malware with respect to the system at a high level. Upon identification of a high level access, another method can be employed in order to decompose a desired range of code into its individual instructions as they execute thereby revealing the inner structure of the malware as it executes. Since the framework does not employ any processor debugging features, and its methods are self-resilient and completely invisible to the executing code, malware that employ any form of anti-debugging and/or anti-analysis strategy including using framework methods can be easily and effectively analyzed.

Methods And Apparatuses For User-Verifiable Execution Of Security-Sensitive Code

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US Patent:
8627414, Jan 7, 2014
Filed:
Mar 9, 2010
Appl. No.:
12/720008
Inventors:
Jonathan M. McCune - Pittsburgh PA, US
Adrian M. Perrig - Pittsburgh PA, US
Anupam Datta - Pittsburgh PA, US
Virgil Dorin Gligor - Pittsburgh PA, US
Yanlin Li - Pittsburgh PA, US
Bryan Jeffrey Parno - Pittsburgh PA, US
Amit Vasudevan - Pittsburgh PA, US
Ning Qu - San Jose CA, US
Assignee:
Carnegie Mellon University - Pittsburgh PA
International Classification:
G06F 7/04
G06F 12/14
H04L 29/06
H04L 9/32
G06F 15/167
G06F 15/16
US Classification:
726 4, 726 7, 726 23, 726 27, 713165, 713166, 713168, 709212, 709217
Abstract:
A computer including a processor and a verification device. The processor in the computer performs the steps of authenticating a secure connection between a hypervisor and the verification device, measuring the identity of at least a portion of a select guest before the select guest executes any instruction, and sending a measurement of the identity of the select guest to the verification device. The verification device compares the policy stored in the verification device with the measurement of the select guest received by the verification device. The steps of authenticating, measuring, sending, and comparing are performed after receiving a signal indicative of a request to execute the select guest and without rebooting the computer.

System And Method For Providing Provable End-To-End Guarantees On Commodity Heterogeneous Interconnected Computing Platforms

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US Patent:
20220350876, Nov 3, 2022
Filed:
Mar 1, 2022
Appl. No.:
17/683786
Inventors:
- Pittsburgh PA, US
Amit Vasudevan - Pittsburgh PA, US
Assignee:
Carnegie Mellon University - Pittsburgh PA
International Classification:
G06F 21/44
G06F 21/60
G06F 11/36
G06F 9/48
Abstract:
Disclosed herein is a system architecture that structures commodity heterogeneous interconnected computing platforms around universal object abstractions, which are a fundamental system abstraction and building block that provides practical and provable end-to-end guarantees of security, correctness, and timeliness for the platform.

Systems And Methods For Maintaining Integrity And Secrecy In Untrusted Computing Platforms

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US Patent:
20140258736, Sep 11, 2014
Filed:
Mar 7, 2014
Appl. No.:
14/200695
Inventors:
- Stuttgart, DE
Emmanuel Kwame Owusu - Pittsburgh PA, US
Jonathan McCarrell McCune - Santa Clara CA, US
Amit Vasudevan - Pittsburgh PA, US
Adrian Perrig - Zurich, CH
Assignee:
Robert Bosch GmbH - Stuttgart
International Classification:
G06F 21/62
US Classification:
713193
Abstract:
A method for operating a computing system with a trusted processor include generating a secret cryptographic key based on a physically unclonable function in at least one hardware component in the trusted processor, generating a first public key and first private key using first secret cryptographic key, and executing instruction code corresponding to a first software program. The method further includes generating output data with the trusted processor during execution of the first software program, generating encrypted data corresponding to the output data using the first public key for at least a portion of the encryption, generating a signature of the encrypted data, and transmitting with an input/output (I/O) interface operatively connected to the trusted processor the encrypted data and the signature for storage in an untrusted memory.
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Amit Vasudevan from Aledo, TX, age ~45 Get Report