Innovative Computer Engineering New Developments The I C

Innovative Computer Engineering New Developments

The I. C. E. Family ● Innovative Computer Engineering – Jeff Schoen ● Rume. L Inc. - Bill Owen ● Low. Noise. Floor – Dave Griffith, Craig Mann, Martin Sherene ● Tiburon Consulting Inc. - Jamie Rookwood ● Y. E. S. - Production ● Quasar – Board design ● FPGA work with Zeta, NGC, Mitre, Raytheon, Sparta

New ICE Developments ● New products from ICE and rume. L: ICE Option Tree ICE 320 ICE-PIC 6 ICE-ZPPM ICE-Gig. EXD ICE-Device LNF New Products

ICE 320 ● ● ● adds /proc file system entry for mapped RAM allocation status adds complex input to FPGA tuner/resampler core adds PRESAMP flag to insert FPGA resampler in front of DTDM tuners adds 3 rd stage of Fast Tuner Transform on DTDM for max of 2048 channels adds FIRONLY flag to PIC 5 XL tuner to implement a 63 tap real filter at 64 MHz SR (or 127@32 MHz) adds ITCPC and ITFMT for graychip tuners (PIC 4/MBT 5) adds timecode calibration for tuner bank outputs with FTTM=1|2|3 adds 64 G memory addressing for PIC 5+ cards adds support for mapping ram files > 2 G adds PIC SPEC for output as well as input adds preliminary support for PIC 6

ICE-PIC 6 is Here!! The ICE-PIC 6 is a programmable digital I/O processor combined with a powerful DSP processor featuring: ● Two 32 -bit digital I/O module sites or Two 4 -Lane Rocket I/O Sites with a total Bandwidth of 2 GB/s each direction (840 Mby/s full duplex for each I/O module) ● One SMB connector for external synchronization ● One Xilinx Virtex-IV programmed as 1, 2, 4, 8 Lane PCI-Express, IOC controller, and packet router ● 256 Mby DDR SDRAM for short term memory with 4 Gby/s bandwidth ● Two processor module sites for application specific processing needs with 1. 6 Gby/s bandwidth ● Two processor module sites are available for application specific processing needs such as digital tuning, demodulators, FFT processing, or PLD processing. All components are software configurable to support a variety of processing needs. ●

PIC 6 (con't) PCIe 8 -lane theoretical bandwidth of 2 Gby/sec limited by small chipset buffers and max payload size ● ● Supported max payload 128 -4096 by. Typical are 128 by write (1. 7 Gby/s) and 64 by read (1. 5 Gby/s) ● Can write to Intel chipsets at 256 (1. 8 Gby) even though configured for 128 ● Very latest Intel chipset uses 128 by reads (1. 7 Gby/s) ● DL 585 (AMD) uses NVidia chipset: 1 8 x slot at 1. 2 Gby/s, 2 8 x at 400 Mby/s, 1 4 x at 400 Mby, 3 4 x slots don't work ● ~50 PIC 6 s in field for evaluating performance on different platforms

ICE-ZPPM ● Zeta Programmable Processor Module ● 1 GHz TI 320 C 6454 Floating Point DSP ● Virtex-5 SX 50 T, SX 95 T, or LX 110 T FPGA ● 256 Mby DDR 2 on FPGA, 128 Mby on DSP ● 100 base-T Ethernet control port ● JTAG test debug port ● Possible nano-Midas platform ● Cost - $6000

ICE-A 2 D-r 11 ● ● ● ● Uses National Semiconductor ADC 08 D 1500 A/D Converter 8 Bit 1. 5 GHz A/D Converter AC Coupled 1 Vp-p Max Input, Analog Bandwidth 3 d. B Cutoff at 30 Mhz & 1. 8 GHz 3 Clock Source Options (1) Direct External Clock Drive Using 1 Vp-p Input Signal (2) Clock Synthesizer From Ext. 10 MHz Ref (3) Clock Synthesizer From On-board 10 MHz Ref. Requires No Extra Heat Sinking or Fans For Use With ICE-PIC 5 X or PIC 6 PCI Cards (PIC 5 X Limited To 500 MBytes/Sec, PIC 6 No Limitation-Full Rates) Dual Site Module-Uses Both I/O Ports Of ICE Hardware Cost: $3500 -In Production

Coming Soon - ICE-A 2 D-r 12 ● ● ● ● ● Dual A/D and Dual D/A I/O module for the ICEPIC 6 Uses 2 Analog Devices AD 9230 devices and 1 Analog Devices AD 9773 Input, Dual 12 bit, 250 Mhz A/D Channels with coherent clocking Output, Dual 12 bit, up to 400 Mhz D/A channels All input and output channels have up to 20 d. B of variable gain Clocking options include, direct, clock synthesizer using onboard or external 10 Mhz ref 1 pps Input for IRIG Timecode to Data Correlation Dual module, requires use of both module sites For use with the PIC 6 Production Q 2 of 2008

ICE-GIGEXD-r 2 ● ● ● Dimensions 4. 5" x 2. 75" x 1. 5" Desktop Unit Powered From Single 8 V to 13 V DC Supply (2 Amps) Data output is packetized as UDP/SDDS packets One embedded tuner Timecode added from IRIG timecode source Three Interface options: RI-GE-DR 2 D-D Differential Logic Interface ($3000) RI-GE-A 2 DR 7 -D 14 Bit A/D, Max Clock Rate 100 Mhz ($3000) RI-GE-A 2 DR 9 -D 12 Bit A/D, Max Clock Rate 200 Mhz ($3100)

RI-1 U-GIGEXD-4 C ● ● ● 1 U form factor chassis, Dimensions: 24"x 19"x 1. 7" Includes 26" Rack Slides Redundant Power Supplies, Single 110/220 AC Plug In Rear Shielded Coax Provided For ALL Internal Signals, Ridged Shielded Coax Provided For All Analog Signals One External IRIG Timecode Connection For Timecode to All 4 Internal GIGEXD Units-Internal 1 to 4 Timecode Signal Distribution System. Internal Mounting Brackets For Up To 4 DRS SI-8614 Nanoceptor™ Receivers, 4 Zeta & Associates Inc. "Zeta" Receivers, or Mix/Match of Both. External Analog Connections At Rear Of Chassis. Internal 1: 4 Digi Port Server, 100 Base. T To Serial Conversion For Communication To Above Receivers. All Cabling (Serial Cables, Ethernet Cable) Included. External 100 Base. T Connection On Back Of Unit For Digi Communication Receiver Integration Done By User. All Appropriate Cabling For Connections Included Inside Of Chassis. Including Power, RF Signal, Clock, IF Out, and Serial Configuration GIGEXD Units May Be Connected To Receivers Or Directly To RF Input. Receivers Do NOT Have To Be Added To The Unit If End User Does Not Desire To Use Them. One Year Warranty Cost: $8000, In Production (Cost For Bare Chassis & Internal Connections, Does Not Include GIGEXD or Receiver Units) Cost Fully Populated With GIGEXD Units: $8000 + 4 x $3000 = $20000

Rume. L One-way Transfer Device ● ● ● ● Can be operated as "stand-alone" units. For single units, the low side and high side PCB units each come encased in metal housings. Optionally, 1 to 4 PCBs can be placed into a standard 1 U rack mount unit. It is the user's option whether the 1 U chassis would hold 4 low side PCBs or 4 high side PCBs. Use Of Fiber Optic Laser as Data "Diode" allows for High Side and Low Side Units To be located In Close Proximity or Up To Several Kilometers Apart Various Security Accreditations Pending RI-GE-DIODE Cost: $10, 000 (Includes Both Low Side & High Side PCBs w/Cases & Power Supplies) Under Development RI-10 GE-DIODE Cost: $25, 000 (Includes Both Low Side & High Side PCBs w/Cases & Power Supplies) Under Development RI-1 U-DIODE-4 C Cost: $2000 (1 U Rack Mount Enclosure For Housing Up to 4 Low PCBs or 4 High PCBs)

New Benchmarks 1500 Mbytes/sec Capable Unit!!! - 1500 Megabytes/sec snapshot to memory - Use with 1. 5 GSps A 2 Dr 11 8 -bit for 750 MHz Bandwidth - Use with 250 Mbytes/sec 12 bit A 2 Dr 9 for small portable unit higher dynamic range - Use with D 2 Ar 9 for 400 MSamples/sec (800 Mbytes/sec D 2 A playback ) ● ● ● ● ● 3. 5” x 6. 5” x 9” The ICE-Device is a 100 W u. Midas platform (3. 5 x 6 x 9) to run any Linux Midas application. This is an LNF n. QT (Dual core Opteron CPU 275 HE) with an ICE-PIC 6. Dual GB NICs, 8 GB RAM PCI-Express slot for ICE-PIC 6 16 GB Solid state flash system drive 6 -24 Volt power input 60 -90 Watts consumption (Application dependant) ICEPIC 6 Two I/O module sites (SDDS, A 2 D, RF 2 D) One Processor module site(s) Virtex 4 Pro Gate Array Up to 8 SATA or SAS drive interface

● The ICE-Pod will be a 15+ Watt n. Midas platform to run Midas only applications Features: ICE-PIC 6 inside ICEPOD enclosure I/O modules (All current ICE I/O modules available) GBNIC interface Processor Module Site(s) (For optional PLDM, ZPPM, or CPPM) Virtex 4 Pro Gate Array Martin Sherene (LNF) is working on remote control of ICE dev. ICE using new i. Phone SDK 6”L x 4. 4” W x 1. 2” H

QT Series Slim. QT - Mini. QT - QT 360/362/364 - QTD 400/QT 600 - Slim. QT - ICEPIC 4 T with Dual A 2 Dr 7 - Up to 400 Gbytes of storage at 50 megabytes/sec - Intel Core 2 DUO at 2. 33 GHz - 4 GBytes of RAM (3 Gbytes usable) - PCIe Version for PIC 6 under development

QT Series Slim. QT - Mini. QT - QT 360/362/364 - QTD 400/QT 600 - Mini. QT - Dual ICEPIC 4 T with Dual A 2 Dr 7 (4 Channels) - Mini. QT - Dual ICEPIC 5 XL with Dual A 2 Dr 7 (4 Channels) (Other Configurations available) - Up to 200 Gbytes of removable disk storage - Intel Core 2 Quad (fastest available) - 8 GBytes of RAM - External Drive packs available for high speed capture - 4. 5”H x 13” W X 11. 5” D

QT Series Slim. QT - Mini. QT - QT 360/362/364/464 - QTD 400/QT 600 - QT 360 Dual Single Core 3. 8 GHz, Independent Dual 64 bit PCI-X - QT 362 Dual Core 3. 73 GHz, Independent Dual 64 bit PCI-X - QT 364 Dual Quad Core 2. 66/3. 00 Ghz, Independent Dual 64 bit PCI-X - QT 464 Dual Quad Core 3. 00 Ghz, Independent Dual 8 -Lane PCIe - Dual ICEPIC 4 T with Dual A 2 Dr 7 (4 Channels) - Dual ICEPIC 5 XL with Dual A 2 Dr 7 (4 Channels) (Many Other Configurations available) - Recording for Dual 6. 25 MHz bandwidth for 12 hours on each channel - 8 Drive configuration using Small Form Factor(SFF SAS) - 5. 25”H x 16” W X 14” D

QT Series Slim. QT - Mini. QT - QT 360/362/364 - QTD 400/QT 600 - QTD 400 Dual Channel 400 megabyte/sec portable recorder Use dual A 2 Dr 9 at 200 Msamples/sec - QT 600 Single Channel 600 Megabytes/sec portable recorder Use A 2 Dr 10 at 500 megabytes/sec Use A 2 Dr 11 at 600 megabytes/sec - QTQ 100 Four channel version configuration - 16 Drive pack for up to 2 Terabytes of storage