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AdvancedTCA has become the industry standard form factor for carrier grade infrastructure. As the designers architect the next generation network elements such as Media Gateways and Radio Network Controllers, they seek latest and greatest technologies to address the processing density and scalability needed for the future requirements.
The RadiSys Promentum® ATCA-9100-TI is an ATCA media processing blade that provides the highest density of media processing through the use of latest multi-core DSP silicon from Texas Instruments (TNETV3020). It incorporates a powerful architecture to enable media processing for thousands of channels, yet offers flexibility in its design through modularity to provide smooth migration to future DSPs. Its AdvancedTCA form factor makes it appropriate for use in Carrier Grade network elements such as Media Gateways and high density Media Servers in Wireless, Broadband and IPTV applications. The AdvancedTCA module is available fully integrated into the award winning RadiSys Promentum® SYS-6010 10 Gigabit Application Ready Platform to enable faster time to market for TEMs to develop their next generation network elements.
The ATCA-9100-TI is a single slot AdvancedTCA Media Resource Module/Blade compliant with PICMG 3.1 Option 9 interface specification. It is based on a modular design for the DSP farms, and uses two purpose-built mezzanine cards to house up to ten 6-core TI TNETV302. Each multi-core DSP device is capable of processing hundreds of voice or video codec channels. The media resource module includes 10GE fabric capability (PICMG 3.1 Option 9) thus enabling high bandwidth connectivity to the DSPs for processing multi-media channels requiring direct high bandwidth connections to DSP. The ATCA-9100-TI also incorporates Serial RapidIO (sRIO) connectivity to each DSP device, supporting management and debug of DSP code. The sRIO path enables loading code into DSP memory, DSP access to the application flash, and communication between the DSPs and the Local Management Processor (LMP).
The base board of the ATCA-9100-TI is a carrier for hosting the DSP mezzanines. The base board includes a powerful Local Management Processor (LMP), Gigabit Ethernet switch, sRIO switch, and power and IPMI infrastructure. The LMPsubsystem features a 1.3 GHz PowerQUICC III processor with up to 1GB of DDR2 SDRAM and dual 128MB Flash memory containing redundant boot and Linux OS images and a local flash file system. Its primary responsibility is to host switch management software for both Gigabit Ethernet and sRIO switches, data path control software, diagnostics and application provisioning software.
The baseboard has two managed Broadcom BCM5650x switches to enable direct Gigabit Ethernet connectivity to the DSPs. The switches are capable of L2 and L3 functions in silicon and can be configured through CLI, API, or SNMP interfaces running on the LMP. Each of the multi-core DSPs has a dedicated Gigabit Ethernet link to separate switches connecting to the ATCA backplane Base and Fabric interfaces as well as the LMP. Such high bandwidth connections to the DSP cores make this blade very powerful for video and VoIP applications, carrying MPEG Transport Streams, iTDM, or RTP packets. The base (carrier) board also includes a Tundra sRIO switch array that facilitates access to each of the DSPs from the LMP as well as the Zone 3 interfaces to the RTM.
The ATCA-9100-TI design incorporates two purpose-built DSP mezzanines which are optimized to carry maximum number of multi-core DSPs the LMP as well as the Zone 3 interfaces to the RTM. The factory installed mezzanines are optimized for power and cooling to support the maximum number of multi-core DSPs. Each mezzanine incorporates 10 TI TNETV3020 six-core DSPs.
The TNETV3020 system-on-a-chip (SoC) is based upon TI's industry leading TMS320C64X+(tm) DSP subsystems. The TNETV3020 has six C64x(tm)DSP cores, each operating at 500 Mhz. The device has over 5.5 MB of integrated memory and advanced set of communication peripherals like Telecom Serial Interphase Ports (TSIP), Serial RapidIO, UTOPIA and Gigabit Ethernet making it ideal platform for TDM-and IP-based systems.
The mezzanine approach protects costly development investment and allows smooth upgrade to next generation DSPs or alternate DSP silicon as and when they become available. The mezzanines also include 256MB of external DDR2 DRAM memory per multi-core DSP, allowing support for more memory-intensive DSP applications.
The ATCA-9100-TI comes complete with all the board support software inclusive of the carrier grade OS on the LMP, diagnostics, application provisioning, switch management and blade management software. The LMP is validated for the Wind River PNE LE carrier grade operating system. The diagnostics software includes tests that verify system health at power up and are accessible through the LMP. The software also includes comprehensive switch management for Layer 2 functions including setting up VLANs and various port specific functions. The Broadcom switches offer powerful “content aware” functions. These functions can also be accessed for increased sophistication in data flow and control for this board. The switch management API is accessible through CLI, API, or SNMP interfaces. The blade management support also includes sRIO switch provisioning and control. Using the sRIO switch it is possible to access any of the DSP internal code or data for debug purposes.
The ATCA-9100-TI is designed to be used in both legacy and green field applications. Customers with legacy code use the ATCA-9100-TI such that they do all the development on the DSP with just the board support software. The DSP modules are entirely at their disposal for development starting with “bare metal”. On the other hand, green field applications requiring a COTS DSP frame work and DSP OS can leverage TI's Telogy framework and codecs. RadiSys will work with both the customer and the DSP software provider to enable smooth DSP application development as a services offering.
Note: Not all connections shown to reduce complexity
| Feature | Function | Description | |
|---|---|---|---|
| Physical | Dimensions | 8Ux6HPx280mm ATCA, single slot | |
| Compliance | PICMG 3.0 Revision 2.0 | ||
| Ethernet Switching | Component | One 24 1GE port BCM56500 and One 24 1GE+2 10GE port BCM56502 Broadcom L2/L3 Ethernet switches | |
| Base Interface | Two 10/10/1000BASE-T ports routed to Zone 2 Base Channel on the backplane | ||
| Fabric Interface | ATCA 3.1 option 9 with 2 x 10GE XAUI | ||
| Ethernet Switching |
CLI SNMP Agent SNMP MIBs |
Full-featured CLI for controlling all switch features |
|
| sRIO Switch Array | Component | Dual Tundra Tsi578 8/16 port sRIO switches configured to provide 20 1x, 3 4x interfaces | |
| Mezzanine Interface | 1x sRIO link to each DSP on both Mezzanines | ||
| Platform Mgmt | IPMI | Version 1.5 with ATCA extensions | |
| Local Management Processor (LMP) | Processor | Freescale MPC8548 clocked at 1.3GHz | |
| Memory | Up to 1 GB of DDR2 SDRAM – One 244 pin miniDIMM socket. | ||
|
Redundant pair of 128MB Spansion Flash for PQIII configuration, Linux OS boot image and file system Up to 1GB application Flash memory (optional) |
|||
| Network Timing Subsytem |
CLK1 / CLK2 - 8KHz / 19.44MHz redundant backplane input TCLKA - 1.544MHz, 2.048MHz, 19.44MHz, or 8KHz output RTC – 19.44MHz to Real Time Clock on processor |
||
| Front Panel LEDs | LEDs | DSP#, Hot Swap, Out of Service, Power Good, Activity | |
| RTM Module Connectors | Gigabit Ethernet |
SFP to Fabric switch for debug SFP to Base switch for debug |
|
| sRIO | 4x Interface for debug (physical connection defined by user) | ||
| LMP | 10/100 BASE-T Interface Direct to LMP | ||
| Backplane Connectors | Ethernet Base, Fabric, Power, and Clock | ATCA Zone 1, P10 connector | |
| ATCA Zone 2, J20 & J23 connector only | |||
| ATCA Zone 3, RTM connectors | |||
| Power Environment | - | On-board regulation supplying up to 250W for the board | |
| Software | Operating System (standard) |
Wind River PNE LE 1.3 Additional distribution supported on demand |
|
| Blade Management (standard) | Blade health management, module management, IP Services management, Time of Day management, Software (image) management, flash/file management | ||
| Front Panel | LEDs | Per DSP Dual Color RED/GREEN DSP Status (20 total LEDs) | |
| Red or Yellow User Defined (Application LED) | |||
| Hot Swap (Blue) | |||
| Red or Yellow Out of Service (ATCA “LED 1”) | |||
| Green Power Good (ATCA “LED 2”) | |||
| Mechanical | Hot Swap extraction ejector | ||
| Reset Button | |||
| Power | ATCA-9100 | 200W Max. and TBD Typical | |
| Environment | Temperature (operating) | Continuous : +5° C to +45° C | |
| Temperature (storage) | –40 o C to +70 o C | ||
| Vibration (operating) | 0.1g, 5 to 100 Hz and back, 0.1 octave/min sine sweep 3 | ||
| 5% to 85% RH non-condensing | |||
| Relative Humidity (non-condensing) | 5 – 90% (operating), 5 – 90% (non-operating) | ||
| Regulatory | Safety | UL/EN/IEC 60950-1, CSA 22.2 | |
| EMC | FCC Part 15, Class A, EN 55022: 1998, Class A 60950 | ||
| Warranty | Two years, parts only | ||
Base board includes PQIII LMP and supports GE switching and SRIO switching path to individual quad-core DSPs. Pricing includes Wind River PNE LE OS support, switch management software for GE and SRIO, and other blade management and diagnostics software. No DSP framework or DSP OS or CODECs included.
Please contact RadiSys for pricing and availability.
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