Device-independent control for embedded interfaces.
An embedded system is the one that has computer-hardware with software integrated in it as the most significant component. It is a dedicated computer-based system, may be independent or part of a large system with the following components.
Considering the vast scope of this field, ranging from the automobile to consumer electronics and aerospace, the demand for this technology for product development and applications will also continue to grow over time. The use of electronic items is becoming more pervasive in everyone’s lives with the use of mobiles, home appliances and more recently use of insulin pumps inside the body, thus providing a chance for you to make a successful career in embedded systems. In this market, you can find the following two trends.
Embedded processors can be broken into two broad categories. Ordinary microprocessors (μP) use separate integrated circuits for memory and peripherals. Microcontrollers (μC) have on-chip peripherals, thus reducing power consumption, size and cost. In contrast to the personal computer market, many different basic CPU architectures are used, since software is custom-developed for an application and is not a commodity product installed by the end user. Both Von Neumann as well as various degrees of Harvard architectures are used. RISC as well as non-RISC processors are found. Word lengths vary from 4-bit to 64-bits and beyond, although the most typical remain 8/16-bit. Most architectures come in a large number of different variants and shapes, many of which are also manufactured by several different companies.
Embedded Single Boards Computers
Enabling Next Generation Industrial Applications
Considering the vast scope of this field, ranging from the automobile to consumer electronics and aerospace, the demand for this technology for product development and applications will also continue to grow over time. The use of electronic items is becoming more pervasive in everyone’s lives with the use of mobiles, home appliances...
Protocol stack implementations are being re-engineered to include separated slow path and fast path, efficient look up routines, flow caching, hardware assisted packet processing and multi-core based packet processing. Adapting protocol stack software to new environments need thorough understanding of product specific use cases and expectations...
Today, we are poised to be the leading chip solutions provider across verticals – Automotive, Server, Graphics and mobile platforms, to name a few. Our design team works cohesively with client’s Embedded, Test, PCB and Validation teams to provide relevant, rewarding and complete solutions. We are expertise in low power with the knowledge and experience in...
Design Verification (DV) clicks when the right methodology is complemented by the right team. First tie silicon success isn’t easy but that’s what our DV engineers bring to you. Extensive knowledge, experience enables them to comprehend the tasks and execute flawlessly. Kick-starting with feature extraction, properties DV project ends with sign-off checklist...