Srinivas P.

Technical Summary

I am post graduate in Electronics & Instrumentation from Regional Engineering
College, Warangal, India. Presently I am working for an MNC as Software Engineer in Bangalore.

Core Technical Skills

2+ years of experience in Real Time Embedded Systems, Micro controllers, Real Time Operating Systems
& Networking (Frame Relay & ATM)



Operating Systems :                    pSOS, Solaris, Unix ( V ), Win98, Win95, Win3.11, Linux
Programming Languages :           C, C++, Modula GM
Micro controllers :                       CASM (Configurable Application Specific Micro controller ),
                                                68HC11 & 68332
Microprocessors Knowledge :     Architecture, Programming & Applications of Intel
                                                8085 & 8086
Hardware Tools :                       Logic Analyzers
Methodologies :                         Object Oriented Analysis and Design ( OMT ) &
                                                Structure System Analysis & Design
Process :                                   SEI-CMM, Malcom Balbridge, Personal Software Process
Networking :                             Frame Relay & ATM
Environment :                           pSOSim Environment

Acquainted With

 C Shell, Bourn shell, UNIX Internals,Perl, Visual C++, MFC

Fields of Interest

Real Time Embedded Systems, RTOS, Networking and Data Communications.
Education
Masters in Science and Technology (M.Sc Tech ) Engineering , Regional Engineering College, Warangal, Kakatiya University, India.
Achievement's
First Rank Holder In Post Graduation In The University
College Topper in the Graduation
Projects Worked On :


1.                         Frame Relay Network to Network Interface (NNI) Stack
Client's Name :  Wipro Ltd., Bangalore
Role  :                 Test Environment Design, Development & Coding &
                            Testing of NNI stack.
Software :           ‘ C ’ & pSOS
Environment :     pSOSim
OS :                     pSOS ( Real Time OS )

Project Scope
 

This project involves the Design of Test Environment for the NNI stack. The Design includes separate Testing environment's for Traffic Management, Signaling and Congestion & Link Layer Management. The environment's are developed using pSOS Real Time Operating System under pSOSim Environment, using 'C' language.


2.                         2002 Buick 100 Series Up-level Radio Arbitrary Text and Accommodated Devices  Project.
Client's Name :  Delco Electronics ( Subsidiary of General Motors )
Role  :                 Design, Development & Testing
Software :           ‘ C ’

Project Scope
 

The project  involves Design, Development & Testing  of Accommodated Devices
( AASD , PASD ) for NEC v850 INDY2 processor,  in ‘C’  language.


Asynchronous Accommodated Devices ( AASD ):

This module generally deals with the asynchronous accommodated devices like Navigation device, Cell phone etc., These devices will be requesting for the Audio bus when ever there is a need to produce Audio. When the device has requested for the audio bus, the arbitration will be made upon the priority of the device. If the device wins the arbitration, it will be connected by issuing a class2 message and is allowed to access  Audio services. The module also supports a MUTE LINE processing. This is the process in which any one of the devices can MUTE the audio system and start  accessing the audio service.
Synchronous Accommodated Devices ( Remote Play Black Devices , PASD) :
This module deals with the Synchronous accommodated devices like CDX, MD, MDX etc.,  These devices will be connected to the bus and no arbitration is performed on them to connect them. Whenever the user generates an input to play any one of these devices, that particular device gets connected. The device  can also request for the Audio service  via a Class2 message, then also the device will be made to play.


3.                          Development of A2D Module using the OOA Model
Client's Name :   Delco Electronics ( Subsidiary of General Motors )
Role  :                  Development & Testing
Software :            ‘ C ‘, TMS370 C Compiler Ver 5.2

Project Scope
 

This involves the development of standard software module for the ‘AD_Filter’ module. The module for A/D conditioning has been designed using the OOA Models developed by Delco Electronics Corporation, USA. Delco Electronics had provided the OOA module ‘AD_Filter’, as an input, based on which, this project has been carried out.
The Low Level Design has been developed in such a way that it is independent of the target microprocessor and the implementation language.


4.                         2000 GMX 220 Instrument Cluster Verification & Validation Project
Client's Name :  Delco Electronics ( Subsidiary of General Motors )
Role  :                 Verification & Validation ( System Testing )
Software :           Modula GM

Project Scope

This involves execution of each instruction of the code simulating the appropriate
conditions and measurement of

5.                          Call Tree generating Tool
Client's Name :  Delco Electronics ( Subsidiary of General Motors )
Role  :                 Design, Development & Testing
Software :           ‘ C ’

Project Scope
 

This program, accepts C source files as input and generates as output to STDOUT a roughly structured listing of module (function) declarations and the function calls within them.



6.    ( Dissertation work in M.Sc. Tech Engg. VI semester )

Title  :                Design and Development of Cartridge Interface for real time embedded system
Organization  :  Electronics & Radar Development Establishment (LRDE), Ministry of Defense
                           Bangalore, India.
Duration  :        8 months ( Nov.’96 - July ’97 )
Software  :         ‘ C’ , VC++

Project Scope
 

The project involves
Development of Flash Memory Cartridge Interface and Implementation of protocols (proprietary)
Development of Mission Simulation Environment

Mission Simulation Environment was developed to identify the system needs.
The cartridge Interface is mainly developed to facilitate handshake between it and major subsystem on the fighter aircraft and act accordingly as commanded by the system.


                                                                                                                                                                                          -Shivaarpanam