Presentation is loading. Please wait.

Presentation is loading. Please wait.

PRESENTED BY OUSSAMA SEKKAT Self-Healing Mixed-Signal Baseband Processor for Cognitive Radios.

Published bySilas Rodgers Modified over 8 years ago

Similar presentations

Presentation on theme: "PRESENTED BY OUSSAMA SEKKAT Self-Healing Mixed-Signal Baseband Processor for Cognitive Radios."— Presentation transcript:

1 PRESENTED BY OUSSAMA SEKKAT Self-Healing Mixed-Signal Baseband Processor for Cognitive Radios

2 Goal of the project To implement a revolutionary new mixed-signal baseband processor targeting the task of spectrum sensing in cognitive radios. Will use both energy detection and pilot detection

3 Berkeley Emulation Engine 2(BEE 2) The platform:  5 high-performance Xilinx FPGAs (Virtex II Pro 70) each containing a power PC Core  Support for up to 20GB of high speed DDR2 DRAM  FPGAs laid out in a star topology with four user FPGAs in a ring and one control FPGA connected to each user.  User FPGAs each have four independent high speed serial channels which are capable of transferring data at 10Gbps (XAUI interface)  1 Ethernet port.

4 BEE 2 (Topology)

5 BORPH Operating System BORPH:Berkeley Os for ReProgrammable Hardware  Extended Linux kernel that treats FPGA resources as native computational resources.  Provides integral operating system supports for FPGA designs, such as the ability for an FPGA design to read/write to the standard Linux file system. A user process in BORPH, can therefore either be a software program running on a processor, or a hardware design running on a FPGA.

6 BORPH Operating System (cont.)

7 Cognitive radio test bed Front end board contains:  FPGA board  XAUI connection  Baseband processor  Front-end radio

8 Development environment MSSGE tool flow:  Matlab v7.0.4 (R14) SP2  Simulink v6.2 (R14) SP2  Xilinx System Generator v7.1  Xilinx EDK v7.1.02i  Xilinx ISE v7.1.04i  MSSGE libraries (Simulink models etc..)

9 Bee2 setup SSH connection to Bee2 enabled. IP: 128.97.88.153 Can use a modified RS-232 cable to connect to Bee2 as a root. Hardware process example:

10 Counter:

11 Hardware process (cont.)

12 matlab >> bee_xps

13 Hardware process (cont.)

14 In BEE 2: user@bee2%./testborph_oussama_floating_2009_Mar_12_1523.bof & user@bee2% ps PID TTY TIME CMD 26427 pts/6 00:00:00 bash 26488 pts/6 00:00:00 testborph_oussama_floating_2009_Mar_12_1523.bof 26525 pts/6 00:00:00 ps user@bee2% cd /proc/26488/hw user@bee2% ls ioreg ioreg_mode region user@bee2% cd ioreg user@bee2% ls cnt_en cnt_val user@bee2% cat cnt_val 00000000 user@bee2% echo 1 >> cnt_en user@bee2% cat cnt_val 000AC015 user@bee2% cat cnt_val 000ACFF9 user@bee2% echo 0 >> cnt_en user@bee2% cat cnt_val 000ADEF3 user@bee2% cat cnt_val 000ADEF3

15 Data acquisition example Start the user FPGA process: user@bee2%./bee_1_fe_fpga1_2009_Jan_15_1238.bof &

16 Data acquisition example Start the control FPGA process: user@bee2%./bee_cntlfpga_2009_Jan_22_1215.bof &

17 Data acquisition example

18 user@bee2%./init// Initialize front end user@bee2%./status 0// Status for front end 0 --RF-- FE 0: frequency 2445 FE 0: ant_select 0 FE 0: tx_on 1 FE 0: tx_power 7 FE 0: rx_lna_gain 0 FE 0: refadj 0 FE 0: rx_agc 120 --MxFE-- FE 0: clkout1_div 0 FE 0: clkout2_div 0 FE 0: tx_dac_gain 128 FE 0: tx_pga_gain 100 FE 0: tx_two_edges 0 FE 0: tx_inv_sample 0 FE 0: tx_twos_complement 0 FE 0: tx_inv_sync 0 FE 0: tx_q_i_order 0 FE 0: tx_retime 0 FE 0: tx_interpolate 0 FE 0: tx_hilbert 0 FE 0: tx_keep_ve 0 FE 0: rx_pga_a 15 FE 0: rx_pga_b 15 FE 0: rx_dcs_ena 0 FE 0: rx_hs_duty_cycle 0 FE 0: rx_decimate 0 FE 0: rx_hilbert 0 FE 0: rx_keep_ve 0 FE 0: rx_inv_sync 0 FE 0: rx_twos_complement 0 FE 0: rx_retime 0 FE 0: mxfe_spi_raw 0x00000000 FE 0: rssi_config 0x00000000 --TxDatapath-- FE 0: tx_sync_ena 1 FE 0: tx_data_sel 1 FE 0: tx_offset_i 120 FE 0: tx_offset_q 120 FE 0: tx_rate_i 3 FE 0: tx_rate_q 3 FE 0: tx_amplitude_i 0 FE 0: tx_amplitude_q 0 FE 0: tx_stepsize 1000 FE 0: tx_signal_mem_1 0x00000000 FE 0: tx_signal_mem_2 0x000100ff terminal count 255 step size 1 FE 0: tx_signal_mem_3 0x00000001 enable mask 0x1 FE 0: tx_ext_up_dn_ena 0 FE 0: tx_ext_up_dn 0 FE 0: tx_ext_data_i 0 FE 0: tx_ext_data_q 0 --RxDatapath-- FE 0: rx_test_sel 0 FE 0: rx_fft_sel 0 FE 0: rx_set_bias 0 FE 0: rx_resolution 0 --ChipScope-- local: scope 0 --HopControl-- local: hop_config_1 0x00000000 local: hop_config_2 0x00000000

19 Data acquisition example user@bee2%./sigmem spectra/14bit/256_10.txt // load signal from given file user@bee2%./param tx_on 1 // set parameter tx_on of front end 0 to 1

20 Bee2 and CR test bed demo DEMO

21 Next steps Use the./acquire utility to capture received signal and transfer it to BEE2 file system Use the extract_raw script to convert the binary dump file created by the “acquire” utility into a format readable my Matlab Run fft_rx matlab script on the resulting file.

Download ppt "PRESENTED BY OUSSAMA SEKKAT Self-Healing Mixed-Signal Baseband Processor for Cognitive Radios."

Similar presentations

RAMP Gold : An FPGA-based Architecture Simulator for Multiprocessors Zhangxi Tan, Andrew Waterman, David Patterson, Krste Asanovic Parallel Computing Lab,

RAMP Gold : An FPGA-based Architecture Simulator for Multiprocessors Zhangxi Tan, Andrew Waterman, David Patterson, Krste Asanovic Parallel Computing Lab,
Automated Gateware Discovery Using Open Firmware

Automated Gateware Discovery Using Open Firmware
Progress With iBOBs at Jodrell Bits & Bytes Meeting, JBO, 17-18 th Dec 2007 Jonathan Hargreaves Electronic Engineer, Jodrell Bank Observatory.

Progress With iBOBs at Jodrell Bits & Bytes Meeting, JBO, th Dec 2007 Jonathan Hargreaves Electronic Engineer, Jodrell Bank Observatory.
© 2003 Xilinx, Inc. All Rights Reserved Course Wrap Up DSP Design Flow.

© 2003 Xilinx, Inc. All Rights Reserved Course Wrap Up DSP Design Flow.
1 In this lecture, you will learn the following. 1. Basics of real-time control engineering 2. Effects of fixed and unfixed (also probably unknown) sampling.

1 In this lecture, you will learn the following. 1. Basics of real-time control engineering 2. Effects of fixed and unfixed (also probably unknown) sampling.
StreamBlade SOE TM Initial StreamBlade TM Stream Offload Engine (SOE) Single Board Computer SOE-4-PCI Rev 1.2.

StreamBlade SOE TM Initial StreamBlade TM Stream Offload Engine (SOE) Single Board Computer SOE-4-PCI Rev 1.2.
Embedded Solutions for EPICS Based Control Systems Miroslaw Dach Goran Marinkovic Paul Scherrer Institut Switzerland.

Embedded Solutions for EPICS Based Control Systems Miroslaw Dach Goran Marinkovic Paul Scherrer Institut Switzerland.
ESODAC Study for a new ESO Detector Array Controller.

ESODAC Study for a new ESO Detector Array Controller.
June 2007 RAMP Tutorial BEE3 Update Chuck Thacker John Davis Microsoft Research 10 June, 2007.

June 2007 RAMP Tutorial BEE3 Update Chuck Thacker John Davis Microsoft Research 10 June, 2007.
Performed by: Volokitin Vladimir Tsesis Felix Instructor: Mony Orbah המעבדה למערכות ספרתיות מהירות High speed digital systems laboratory הטכניון - מכון.

Performed by: Volokitin Vladimir Tsesis Felix Instructor: Mony Orbah המעבדה למערכות ספרתיות מהירות High speed digital systems laboratory הטכניון - מכון.
BEEKeeper Remote Management and Debugging of Large FPGA Clusters Terry Filiba Navtej Sadhal.

BEEKeeper Remote Management and Debugging of Large FPGA Clusters Terry Filiba Navtej Sadhal.
Middle presentation Dynamic System on Programmable Chip By: Nir Shahar and Amir Kleinhendler Supervisor: Ina Rivkin Spring/Winter 2006.

Middle presentation Dynamic System on Programmable Chip By: Nir Shahar and Amir Kleinhendler Supervisor: Ina Rivkin Spring/Winter 2006.
29 April 2005 Part B Final Presentation Peripheral Devices For ML310 Board Project name : Spring Semester 2005 Final Presentation Presenting : Erez Cohen.

29 April 2005 Part B Final Presentation Peripheral Devices For ML310 Board Project name : Spring Semester 2005 Final Presentation Presenting : Erez Cohen.
The Xilinx EDK Toolset: Xilinx Platform Studio (XPS) Building a base system platform.

The Xilinx EDK Toolset: Xilinx Platform Studio (XPS) Building a base system platform.
1 Fast Communication for Multi – Core SOPC Technion – Israel Institute of Technology Department of Electrical Engineering High Speed Digital Systems Lab.

1 Fast Communication for Multi – Core SOPC Technion – Israel Institute of Technology Department of Electrical Engineering High Speed Digital Systems Lab.
Students:Gilad Goldman Lior Kamran Supervisor:Mony Orbach Part A Presentation Network Sniffer.

Students:Gilad Goldman Lior Kamran Supervisor:Mony Orbach Part A Presentation Network Sniffer.
1 Chapter 14 Embedded Processing Cores. 2 Overview RISC: Reduced Instruction Set Computer RISC-based processor: PowerPC, ARM and MIPS The embedded processor.

1 Chapter 14 Embedded Processing Cores. 2 Overview RISC: Reduced Instruction Set Computer RISC-based processor: PowerPC, ARM and MIPS The embedded processor.
הטכניון - מכון טכנולוגי לישראל הפקולטה להנדסת חשמל Technion - Israel institute of technology department of Electrical Engineering Virtex II-PRO Dynamical.

הטכניון - מכון טכנולוגי לישראל הפקולטה להנדסת חשמל Technion - Israel institute of technology department of Electrical Engineering Virtex II-PRO Dynamical.
Implementation of DSP Algorithm on SoC. Characterization presentation Student : Einat Tevel Supervisor : Isaschar Walter Accompany engineer : Emilia Burlak.

Implementation of DSP Algorithm on SoC. Characterization presentation Student : Einat Tevel Supervisor : Isaschar Walter Accompany engineer : Emilia Burlak.
v8.2 System Generator Audio Quick Start

v8.2 System Generator Audio Quick Start

Similar presentations

Ads by Google