Nature of Business
INEDA Systems - Service Provider of data security service, io virtualization technology & multi-processor communication in Hyderabad, Telangana.
Security is extremely important to protect the system data and user/device credentials and would be a key feature as we move towards connected devices. Ineda offers an enhanced trusted environment both at the H/W and S/W level that is shown by the diagram below. Ineda Architecture supports various levels of security: root of trust, secure keys, secure firmware and application upgrade, secure debug, secure peripherals, secure storage, secure HID, configurable security policies/ACLs, communication/network security etc. Ineda offers easy to use security software with all the required tools, utilities and simple APIs to reduce the time to market for the end product.
In computing systems, virtualization is a technology that is generally implemented to meet the growing demands of user applications. Virtualization allows a platform to run multiple operating systems and applications at the separate partitions of SoCs., thus allowing a computing system to function as multiple "virtual" systems. In addition, each of the virtual systems may be isolated from each other and can function independently.
Lately virtualization has also been extended to cover I/O virtualization. I/O virtualization is a methodology where I/O devices can be shared across multiple hosts. In systems supporting I/O virtualization, address remapping is generally used to enable assignment of the I/O devices to the host processor.
Ineda's I/O Virtualization technology enables seamless sharing of peripherals such as Display, SD, NAND, Audio, Camera, Wired/Wireless interfaces, among the two or more heterogeneous CPU and OS.
Ineda’s family of SoCs provides a secure and highly efficient inter-processor communication infrastructure using CPU Link services. The CPU Link is specifically designed to deliver low latency and low overhead communication between processors with diverse performance and memory resources. It uses fast interrupt mechanism to implement low latency for short messages and synchronization. It utilizes shared memory to achieve low overhead (aka “zero-copy”) so data passes by reference rather than physically being copies. Since resources and peripherals are shared between multiple processors, a lightweight semaphore mechanism allows implementation of synchronization primitives to surround critical sections of code and ensure there is no resource contention.
Sudha Enclave,Road No 2,Banjara Hills, Near By PVR Cinema, Banjara Hills,
Hyderabad-500034, Telangana, India