Services
Professional services to enhance your team's capabilities and accelerate your project success
Resource Augmentation
Enhance your team’s capabilities with our expert professionals. We provide skilled engineers and specialists to augment your existing workforce, helping you meet project deadlines and achieve technical excellence.
IMS provides a dynamic and economical resource augmentation service, a strategic outsourcing approach where businesses can onboard global technology professionals from us on a contractual basis for defined projects.
This model ensures you have access to the most suitable expertise precisely when needed, enabling seamless collaboration between your in-house teams and our augmented talent.
Our service eliminates the need for extensive, time-consuming hiring procedures, significantly reducing recruitment overheads and allowing you to acquire skilled personnel swiftly. Furthermore, we offer the flexibility to adjust team sizes as your project demands evolve, ensuring optimal resource utilization for medium and large enterprises alike,helping you achieve all your project milestones.
Beyond just providing personnel, we ensure our well-trained professionals are equipped with specialized expertise across various technology domains. This includes proficiency in reliability and availability tools, in-depth knowledge of software analysis tools, and the critical skills required for system qualification adhering to defense and avionics standards. Additionally, our experts are adept in various web technologies, ready to tackle your specific project requirements.
Training
Comprehensive training programs designed to elevate your team’s expertise in reliability analysis, static analysis, and software development. Our specialized courses ensure your staff stays current with industry best practices.
Available Training Programs
Choose from our comprehensive catalog of industrial automation courses
Isograph Reliability Workbench
This course provides an introduction to the standard methods applied in reliability and safety studies. This workshop course utilizes the Reliability Workbench computer program.
Topics Covered:
- Failure Rate Prediction Standards (MIL-217, Telcordia TR/SR-332, NSWC, IEC TR 62380, GJB/z 299B and C, 217Plus)
- Failure Mode Effects and Criticality Analysis (FMECA)
- Reliability Allocation
- Reliability Block Diagram Analysis
- Weibull Analysis
- Reliability Growth
- Reporting- Isograph's Report Designer used to create and publish text column, text row, graph and diagram reports
Isograph FaultTree+ Course
The course summary details for our popular Fault Tree Analysis Workshop are given below.
Topics Covered:
- Introduction of reliability terminology
- Fault Tree Construction
- Minimal Cut Sets
- Component Failure and Repair Models
- System Quantification
- Importance Analysis
- Common Cause Failures
- Initiators, Enablers, and Sequencing
Isograph AvSim Course
The course summary details for our AvSim Workshop are given below.
Topics Covered:
- Introduction and Course Overview: An introduction to reliability parameters, availability and reliability, failure frequency, constant failure rates
- How Simulation Works
- System Logic
- Failure Models
- Resources
- Phases and Rules
- Consequences
- Weibull Analysis
Isograph RCMCost Course
The course summary details for our RCMCost Workshop are given below.
Topics Covered:
- Introduction and Course Overview: An introduction to reliability parameters, availability and reliability, failure frequency, constant failure rates
- How Simulation Works - Employing Monte Carlo simulation techniques to model random component failures and solve complex dependency problems
- Reliability-Centered Maintenance methodology to optimize the maintenance policies to maximize availability or minimize cost
- RFMEA Hierarchy by constructing a failure modes and effects hierarchy that graphically shows the functional relation of components
- Causes: Entering data relating to failure and repair for each component. Assigning costs and effects to failures
- Strategy: RCMCost has a sophisticated optimization algorithm that helps determine the optimal time to perform interval maintenance
- Weibull Analysis: How to use the Weibull module to generate an estimated failure rate based on historical data
- Reporting- Isograph's Report Designer used to create and publish text column, text row, graph and diagram reports
AbsInt StackAnalyzer Online Course
Learn how to use AbsInt StackAnalyzer to determine the worst-case stack usage of the tasks in your application. Eliminate stack overflows!
Topics Covered:
- Learning about aspects of Functional Safety, Static Program Analysis and Soundness by Abstract Interpretation
- Introduction to Static Stack Usage Verification
- Learning the structure of the StackAnalyzer tool chain
- Working with Hands-On demonstrator examples for a StackAnalyzer project
- Learning the Basic Usage of the a3 GUI
- AIS annotation language
- Advanced Options in Usage of the a3 GUI
- Concept of Source Files in the a3 Tool
AbsInt aiT WCET online Workshop
Learn how to use the AbsInt aiT Worst Case Execution Time (WCET) static analysis tool to determine accurate and tight upper bounds of execution times.
Topics Covered:
- Timing Analysis Overview
- Static Program Analysis Methods and Abstract Interpretation
- aiT Tool Architecture,Usage of the a3 GUI
- Target Processor Configuration in aiT
- Execution Contexts
- Loop Transformation and Loop Contexts
- AIS2 Annotations - Analysis scope,Indirect Calls,Recursions,Loop Bound Annotations
- Source Code Annotations
Real-Time systems:Vxworks RTOS
The course will take you through basic and advance concept and hands-on of Vxworks.
Topics Covered:
- Workbench and Development Tools
- Real-Time systems
- Real Time Multitasking
- VxWorks Scheduler
- RTP & Memory Management
- Inter-Task Communications
- Message Channels
- Signals Interrupts & Timers
Vxworks® is a registered trademark of Wind River Systems, Inc.
Vxworks BSP and Device Drivers
The course will take you through the concept of BSP & device driver development for Vxworks.
Topics Covered:
- Introduction to VxWorks BSPs
- Signals Interrupts and Timers
- Pre-Kernel Initialization
- Post-Kernel Initialization
- Driver Development Strategies
- Initialization Sequence
- Vxbus and component description language
- Services Available to Drivers
Vxworks® is a registered trademark of Wind River Systems, Inc.
Embedded Linux Device Drivers
The course is for embedded device driver development.
Topics Covered:
- Cross Compilation Toolchains
- Bootloaders
- Kernel Configuration and Compilation
- Memory and Interrupts
- Kernel Modules
- Root File System
- Real Time in Linux
- Device Driver Introduction
Industrial IoT and Industry 4.0
Implementation of IoT solutions in industrial environments
Topics Covered:
- IoT Architecture
- Data Collection
- Cloud Integration
- Edge Computing
- Predictive Maintenance
- Digital Twins
- Machine Learning
- Big Data Analytics
Need More Information?
Contact our team to access additional technical resources and documentation.