Synonyms for rapidio or Related words with rapidio

srio              xaui              hypertransport              rapidlo              canopen              infiniband              profinet              unipro              myrinet              infinband              axi              iosf              vmebus              iwarp              pcie              spacewire              ethercat              pciexpress              superspeed              egio              sercos              wirelesshart              gbe              slimbus              gige              xfi              wusb              starfabric              flexray              compactpci              qpi              infiband              ssic              mdio              ulpi              csix              pmbus              nvme              ngio              infinib              numalink              serdes              ttethernet              sgpio              mellanox              higig              quadrix              basetx              ficon              fiberchannel             

Examples of "rapidio"
The RapidIO roadmap aligns with Ethernet PHY development. RapidIO specifications for 50 GBd and higher links are under investigation.
interconnect technology. RapidIO supports messaging, read/write and cache coherency semantics. RapidIO fabrics guarantee in-order packet delivery, enabling power- and area- efficient protocol
The RapidIO specification does not discuss the subjects of form factors and connectors, leaving this to specific application-focussed communities. RapidIO is supported by the following form factors:
Processor-agnostic RapidIO support is found in the Linux kernel.
The RapidIO architecture is a high-performance packet-switched,
RapidIO has its roots in energy-efficient, high-performance computing.
System enumeration is supported in Linux by the RapidIO subsystem.
RapidIO is expanding into supercomputing, server, and storage applications.
The RapidIO protocol is defined in a 3-layered specification:
The RapidIO interconnect is used extensively in the following applications:
The RapidIO Specification Revision 3.1, released in 2014, was developed through a collaboration between the RapidIO Trade Association and NGSIS. Revision 3.1 has the following enhancements compared to the 3.0 specification:
RapidIO control symbols can be sent at any time, including within a packet. This gives RapidIO the lowest possible in-band control path latency, enabling the protocol to achieve high throughput with smaller buffers than other protocols.
The RapidIO transport layer enables hardware virtualization (for example, a RapidIO endpoint can support multiple device IDs). Portions of the destination ID of each packet can be used to identify specific pieces of virtual hardware within the endpoint.
Bus/Interfaces: AMBA AHB, APB, AXI, PCI, PCI-X, PCIe, RapidIO, SPI, NVMe, CoreConnect, FSB, BSB
The RapidIO electrical specifications are based on industry-standard Ethernet and Optical Interconnect Forum standards:
The RapidIO PCS/PMA layer supports two forms of encoding/framing:
RapidIO fabrics enjoy dominant market share in global deployment of cellular infrastructure 3G, 4G & LTE networks with millions of RapidIO ports shipped into wireless base stations worldwide. RapidIO fabrics were originally designed to support connecting different types of processors from different manufacturers together in a single system. This flexibility has driven the widespread use of RapidIO in wireless infrastructure equipment where there is a need to combine heterogeneous, DSP, FPGA and communication processors together in a tightly coupled system with low latency and high reliability.
Every RapidIO endpoint is uniquely identified by a Device Identifier (deviceID). Each RapidIO packet contains two device IDs. The first is the destination ID (destID), which indicates where the packet should be routed. The second is the source ID (srcID), which indicates where the packet originated. When an endpoint receives a RapidIO request packet that requires a response, the response packet is composed by swapping the srcID and destID of the request.
Every RapidIO processing element transmits and receives three kinds of information: Packets, control symbols, and an idle sequence.
The RapidIO logical layer is composed of several specifications, each providing packet formats and protocols for different transaction semantics.