Computational Science & Engineering

  • Real-Time Football Statistics & Analysis System. 1983-1984

    Lakhvinder developed and deployed a real-time football statistics acquisition, analysis, predictive and decision support system during the years 1983-1984 in Lamont and Arvin, California. The system was written in BASIC and Assembly with deployment on Commodore 64 and Apple II platforms. The Intellectual Property rights were conferred upon the Client, insofar as the rudimentary Intellectual Property conventions of the time.

  • BFM SAViM (Self Adapting Virtual Machine) Supercomputer and Operating Logic System, Generation I. 1985-1990

    Revolutionary Lakhvinder design of a real-time, fault tolerant high performance supercomputer and operating logic system. BFM ™ SAViM ™ (Self Adapting Virtual Machine™) is an autonomous autopoietic system designed for fully-coupled mass scalability and mass geographical distribution in an emergent, self organizing manner. BFM ™ refers to the hardware, SAViM ™ refers to the software. BFM SAViM is a computation system designed for high-security, fault-tolerant mass-scale deep computation. The exclusive Intellectual Property of Lakhvinder.

  • BFM SAViM II, Supercomputer and Operating Logic System. 1990-1996

    The revolutionary Generation II design of Lakhvinder's BFM ™ SAViM ™. Beginning with GII, the lines between system hardware and system software begin to blur as BFM and SAViM meld. BFM SAViM is a computation system designed for high-security, fault-tolerant mass-scale deep computation. Technology from BFM SAViM I and II has also been de-coupled and used in other production systems. The exclusive Intellectual Property of Lakhvinder.

  • Full Spectrum RF Signal Propagation Mathematical Model and Predictive Simulator. 1993

    A full spectrum RF signal propagation mathematical model and predictive simulator integrated with terrain and structures databases. This system was designed for integration with the RF Signals Intelligence (SIGINT) System. The exclusive Intellectual Property of Lakhvinder.

  • Field SIGINT and Theoretical Model Information Fusion System. 1993

    A system for the fusion of field acquired SIGINT data and data from theoretical models to both refine the predictive model simulator for increased accuracy, and, for the interpolated expansion of the density of field acquired SIGINT data. This system was designed for integration with the RF SIGINT System and the RF Signals Propagation Mathematical Model and Predictive Simulator. This system was designed to run in the field and in the lab. The exclusive Intellectual Property of Lakhvinder.

  • Project Firepower, US Navy. 1995

    Fail-safe, fault-tolerant, mission critical system for telemetry, control and real-time predictive simulation of an experimental apparatus for study and experimentation in the realm of fire propagation and fire suppression. The self contained system was field transportable by C-130 Hercules aircraft, truck, off-road standard self-propelled chassis platform, and shipboard cargo container. The system was a self-contained supercomputer, telemetry system, control system, informatics system, and command center with integral self contained power and cooling. The exclusive Intellectual Property of Lakhvinder.

    Download the Project Firepower Brief pdf

  • SOEN ™, Self Organizing Emergent Network ™. 1997

    Lakhvinder technology de-coupled from Lakhvinder's BFM SAViM. SOEN is an autonomous, autopoietic, self organizing, fault tolerant network system exhibiting emergent characteristics. SOEN is a constituent of BFM SAViM, and, has been de-coupled and used in other Lakhvinder production systems. The exclusive Intellectual Property of Lakhvinder.

  • BFM ™ SAViM ™ III, Supercomputer and Operating Logic System. 2000-2012

    Generation III conceptual design and theoretical / experimental research and development of Generation III of Lakhvinder's BFM SAViM. BFM SAViM is a computation system designed for high-security, fault-tolerant mass-scale deep computation.

  • Territorial Saturation: Global Ambient Intelligence Sensory Saturation. 2007

    A ubiquitous & pervasive sensory, computation, informatics, communications and network system architectural and operational concept. The system of systems forms a global ambient intelligence with emergent properties for civilian, military and intelligence applications. This work was performed at the request of the US Air Force. Further work has been performed at the request of the US intelligence community and internal exploration. This work and the expanded works are the exclusive intellectual property of Lakhvinder.

    Download Territorial Saturation: Global Ambient Intelligence Sensory Saturation variation for your clearance level. (Draft v1.4 [26 pages], Formal v2.0 [350 pages], Current v6.0 [2,498 pages])

    (Draft v1.4 26 pages, Formal v2.0 350 pages, Current v5.3 1,798 pages)
  • Sentinel ™: Concept & Architecture for the Fundamental Construct of Ambient Intelligence. 2007

    The Sentinel ™ is the fundamental functional element of Ambient Intelligence for Territorial Saturation. A Sentinel is a simple, inexpensive, robust and autonomous device designed to perform a simple, well defined and well understood function over a potentially long service life or over a short terminal service life.

  • BFM ™ SAViM ™ IV, Supercomputer and Operating Logic System. 2008-2012

    Conceptual design and theoretical / experimental research and development of Lakhvinder's Generation IV BFM SAViM. BFM SAViM is a computation system designed for high-security, fault-tolerant mass-scale deep computation. The exclusive intellectual property of Lakhvinder.

  • Mathematical Modeling and Computational Engineering of Monocoque Carbon Fiber Structures. 2008

    The mathematical modeling and computational engineering of monocoque & unibody structures constructed of carbon fiber & composite panels which are interlocked mechanically and adhesively. Whilst developed primarily for automotive and aerospace applications, there exists naval and architectural applicability. Research and development within a Lakhvinder experimental structural simulation platform which is deployed atop Wolfram Research® Mathematica®. The exclusive intellectual property of Lakhvinder.

  • Manufacturing Physically Cubic Three Dimensional Electron Based Processors. 2008

    Theoretical musings concerning the manufacture of physically 3 dimensional electron based processors in the form of cubes of size 3" x 3" x 3". Related to BFM SAViM. The exclusive intellectual property of Lakhvinder.

  • Spherical Three Dimensional Electron Based Processors. 2008

    The manufacture of 3" spherical electron based processors as a formation within a 3" x 3" x 3" cube scaffold. This work is a result of the BFM SAViM effort. The exclusive intellectual property of Lakhvinder.

  • The Cooling of Physically Three Dimensional Processors. 2008

    Three sided open cooling channels implementing dual state liquid-gaseous micro fluidics with pumping of the coolant using the phenomena of nanometer scale electrostatics. Why three sided U channels? I have not yet worked out the mechanics and chemistry of closing the channels in an operational state whilst assuring thermal interface with layers above. This work is related, in part, to the BFM SAViM effort. The exclusive intellectual property of Lakhvinder.

  • Zero Gravity and Micro Gravity Manufacture of Three Dimensional Optical Processors. 2008

    Zero Gravity and Micro Gravity manufacture of optical photon based processors as a 3" sphere formed within a crystalline cube of 3" x 3" x 3". The exclusive intellectual property of Lakhvinder.

  • The modeling and simulation of amorphous state and ordered crystalline state phase change of Ge-Sb-Te alloys using hnc: heavy node computing. 2008

    Mathematical modeling, computational hardware and computational algorithms for the modeling and simulation of amorphous state and ordered crystalline state phase change of Germanium-Antimony-Tellurium alloys in the realm of ≥1,000 atoms with temporal scales of ≥1 nanosecond using modest hnc (heavy node computing) environments of Windows ® and Linux ® on intel ® and AMD ® processors with sub processing on nvidia ® CUDA ™. The exclusive intellectual property of Lakhvinder.

  • Software based model and simulator of BFM ™ SAViM ™ III hardware. 2008

    Modeling and simulation platform for the research, analysis, design, development and verification of components of the BFM ™ SAViM ™ III electron based processors including the computeCELL ™, the memoryCELL ™ and the flowSPACE-CELL ™.

  • Mathematical modeling of fundamental optical photon based features and devices of BFM ™ SAViM ™ IV optical photon based hardware. 2008

    Mathematical modeling and simulation for the research, analysis, design and development of fundamental theoretical and experimental optical photon based features and devices of the BFM ™SAViM ™ IV hardware. The modeling and simulation platform is implemented in software and deployed atop the Maplesoft ® Maple ™ mathematical computation environment. The platform runs atop a Hewlett-Packard ® xw8600 workstation with intel ® processors and Microsoft ® Vista ™ x64. The exclusive intellectual property of Lakhvinder.

  • Software based model and simulator of BFM ™ SAViM ™ IV hardware. 2008

    Modeling and simulation platform for the research, analysis, design, development and verification of components of the BFM ™SAViM ™ IV optical photon based processors including the computeCELL ™, the memoryCELL ™and the flowSPACE-CELL ™.

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