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birales.xml
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<?xml version="1.0" encoding="ISO-8859-15"?>
<instrument>
<fengine id='0' name="feng" port='7147'>
<!--<bitstream>x64_32f_024i_2011_Apr_17_1634.bof</bitstream>-->
<bitstream>feng_latest.bof</bitstream>
<adc name="x64"> <!-- set clock power to 0 dBm-->
<clk>40000000.0</clk> <!-- data sample clock rate in Hz-->
<bits>12</bits>
<!--<acc_len>8192</acc_len>--> <!-- adc samples to accumulate to compute power-->
<acc_len>32</acc_len> <!-- 8192 samples are accumulated but the bottom 8 bits are sliced off(i.e a divide by 256)--><!--adc samples to accumulate to compute power-->
</adc>
<n_ants>16</n_ants> <!-- number of dual pol antenna inputs, n_ants*2 for single pol-->
<n_stokes>4</n_stokes> <!-- Nuber of stokes parameters calculated -->
<n_ants_sp>32</n_ants_sp> <!-- number of actual antennas without dual pol convention-->
<pols_per_ant>1</pols_per_ant> <!-- Are the n_ants_sp above dual pol receivers?-->
<n_chan>256</n_chan> <!-- number of fft channels-->
<ant_mux>4</ant_mux> <!-- number of signals per input line-->
<obs_freq>408000000.0</obs_freq> <!-- central observing frequency in Hz-->
<!--<fft_shift>0b10101010101</fft_shift>--> <!-- shift schedule, each stage is 1 bit-->
<fft_shift>0b11101011111</fft_shift> <!-- shift schedule, each stage is 1 bit-->
<eq name="xengine" type="amp">
<n_bits>4</n_bits>
<binary_point>3</binary_point>
<decimation>2</decimation> <!-- number of channels per eq coefficent-->
<auto>false</auto> <!-- if true preform auto equalization-->
<!--<default>poly</default>--> <!-- poly:generate a polynomial based on eq_poly, coeff:a list of n_chan/decimation values-->
<default>poly</default> <!-- poly:generate a polynomial based on eq_poly, coeff:a list of n_chan/decimation values-->
<tolerance>0.01</tolerance> <!-- eq tolerance when preforming auto eq-->
<!--
Starting point for auto-equalization or values for manual eq programming.
one line entry per polarisation. Item is a list of polynomial coefficients.
e.g. <eq_poly id="0" pol="x">10,30,40</eq_poly>
corresponds to 10x^2 + 30x + 40 where x is the frequency channel index.
-->
<eq_poly id="0" pol="x">200</eq_poly>
<eq_poly id="1" pol="x">200</eq_poly>
<eq_poly id="2" pol="x">200</eq_poly>
<eq_poly id="3" pol="x">200</eq_poly>
<eq_poly id="4" pol="x">200</eq_poly>
<eq_poly id="5" pol="x">200</eq_poly>
<eq_poly id="6" pol="x">200</eq_poly>
<eq_poly id="7" pol="x">200</eq_poly>
<eq_poly id="8" pol="x">200</eq_poly>
<eq_poly id="9" pol="x">200</eq_poly>
<eq_poly id="10" pol="x">200</eq_poly>
<eq_poly id="11" pol="x">200</eq_poly>
<eq_poly id="12" pol="x">200</eq_poly>
<eq_poly id="13" pol="x">200</eq_poly>
<eq_poly id="14" pol="x">200</eq_poly>
<eq_poly id="15" pol="x">200</eq_poly>
<eq_poly id="16" pol="x">200</eq_poly>
<eq_poly id="17" pol="x">200</eq_poly>
<eq_poly id="18" pol="x">200</eq_poly>
<eq_poly id="19" pol="x">200</eq_poly>
<eq_poly id="20" pol="x">200</eq_poly>
<eq_poly id="21" pol="x">200</eq_poly>
<eq_poly id="22" pol="x">200</eq_poly>
<eq_poly id="23" pol="x">200</eq_poly>
<eq_poly id="24" pol="x">200</eq_poly>
<eq_poly id="25" pol="x">200</eq_poly>
<eq_poly id="26" pol="x">200</eq_poly>
<eq_poly id="27" pol="x">200</eq_poly>
<eq_poly id="28" pol="x">200</eq_poly>
<eq_poly id="29" pol="x">200</eq_poly>
<eq_poly id="30" pol="x">200</eq_poly>
<eq_poly id="31" pol="x">200</eq_poly>
<eq_coeff id="5" pol="x">
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
800 800 800 800 800 800 800 800 800 800 800 800 800 800 800 800
</eq_coeff>
</eq>
<eq name="xengine" type="amp" level='bandpass'>
<!-- NOTE - THESE coefficients should describe the bandpass, **NOT** the required 1/bandpass correction-->
<n_bits>4</n_bits>
<binary_point>3</binary_point>
<decimation>2</decimation> <!-- number of channels per eq coefficent-->
<start_chan>160</start_chan>
<end_chan>880</end_chan>
<auto>false</auto> <!-- if true preform auto equalization-->
<!--<default>poly</default>--> <!-- poly:generate a polynomial based on eq_poly, coeff:a list of n_chan/decimation values-->
<default>poly</default> <!-- poly:generate a polynomial based on eq_poly, coeff:a list of n_chan/decimation values-->
<tolerance>0.01</tolerance> <!-- eq tolerance when preforming auto eq-->
<!--
Starting point for auto-equalization or values for manual eq programming.
one line entry per polarisation. Item is a list of polynomial coefficients.
e.g. <eq_poly id="0" pol="x">10,30,40</eq_poly>
corresponds to 10x^2 + 30x + 40 where x is the frequency channel index.
-->
<!-- NOTE - THESE coefficients should describe the bandpass, **NOT** the required 1/bandpass correction-->
<!--<eq_poly id="0" pol="x">200</eq_poly>-->
<!--<eq_poly id="1" pol="x">200</eq_poly>-->
<!--<eq_poly id="2" pol="x">200</eq_poly>-->
<!--<eq_poly id="3" pol="x">200</eq_poly>-->
<!--<eq_poly id="4" pol="x">200</eq_poly>-->
<!--<eq_poly id="5" pol="x">200</eq_poly>-->
<!--<eq_poly id="6" pol="x">200</eq_poly>-->
<!--<eq_poly id="7" pol="x">200</eq_poly>-->
<!-- -->
<!--<eq_poly id="8" pol="x">200</eq_poly>-->
<!--<eq_poly id="9" pol="x">200</eq_poly>-->
<!--<eq_poly id="10" pol="x">200</eq_poly>-->
<!--<eq_poly id="11" pol="x">200</eq_poly>-->
<!--<eq_poly id="12" pol="x">200</eq_poly>-->
<!--<eq_poly id="13" pol="x">200</eq_poly>-->
<!--<eq_poly id="14" pol="x">200</eq_poly>-->
<!--<eq_poly id="15" pol="x">200</eq_poly>-->
<!-- -->
<!--<eq_poly id="16" pol="x">200</eq_poly>-->
<!--<eq_poly id="17" pol="x">200</eq_poly>-->
<!--<eq_poly id="18" pol="x">200</eq_poly>-->
<!--<eq_poly id="19" pol="x">200</eq_poly>-->
<!--<eq_poly id="20" pol="x">200</eq_poly>-->
<!--<eq_poly id="21" pol="x">200</eq_poly>-->
<!--<eq_poly id="22" pol="x">200</eq_poly>-->
<!--<eq_poly id="23" pol="x">200</eq_poly>-->
<!-- -->
<!--<eq_poly id="24" pol="x">200</eq_poly>-->
<!--<eq_poly id="25" pol="x">200</eq_poly>-->
<!--<eq_poly id="26" pol="x">200</eq_poly>-->
<!--<eq_poly id="27" pol="x">200</eq_poly>-->
<!--<eq_poly id="28" pol="x">200</eq_poly>-->
<!--<eq_poly id="29" pol="x">200</eq_poly>-->
<!--<eq_poly id="30" pol="x">200</eq_poly>-->
<!--<eq_poly id="31" pol="x">200</eq_poly>-->
<!-- NOTE - THESE coefficients should describe the bandpass, **NOT** the required 1/bandpass correction-->
<eq_poly id="0" pol="x"> -1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="1" pol="x"> -1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="2" pol="x"> -1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="3" pol="x"> -1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="4" pol="x"> -1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="5" pol="x"> -1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="6" pol="x"> -1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="7" pol="x"> -1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="8" pol="x"> -1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="9" pol="x"> -1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="10" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="11" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="12" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="13" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="14" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="15" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="16" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="17" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="18" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="19" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="20" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="21" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="22" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="23" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="24" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="25" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="26" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="27" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="28" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="29" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="30" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
<eq_poly id="31" pol="x">-1.0247e-20, 4.2399e-17, -7.4576e-14, 7.2724e-11, -4.2977e-8, 1.5770e-5, -3.5187e-3, 4.3833e-1, -2.1285e1</eq_poly>
</eq>
</fengine>
<xengine id='0' name="x" port='7147'>
<!--<bitstream>xeng_hdl.bof</bitstream> --><!-- hdl xengine - in testing -->
<bitstream>med_16a_2x_r113c_2011_Mar_31_1159.bof</bitstream> <!-- sw reg for mux idle time-->
<!--<bitstream>med_16a_2x_r113a_2011_Mar_23_1358.bof</bitstream>--> <!-- use for > 1 second integrations-->
<!--<bitstream>med_16a_2x_r113b_2011_Mar_23_1703.bof</bitstream>--> <!-- use for < 1 second integrations-->
<clk>200000000</clk> <!-- clk rate in Hz-->
<n_xaui>1</n_xaui> <!-- number of fengine XAUIs connected to this board-->
<xaui id='0'>
<n_ants>16</n_ants> <!-- number of daul pol antennas on this XAUI-->
</xaui>
<x_per_fpga>2</x_per_fpga> <!-- number of xengine blocks per FPGA-->
<bits>4</bits> <!-- number of quantization bits-->
<fix_pnt_pos>3</fix_pnt_pos> <!-- position of binary point-->
<n_chan>1024</n_chan> <!-- number of channels processed in this X Engine-->
<n_ants>16</n_ants> <!-- number of dual pol antennas processed-->
<n_stokes>4</n_stokes>
<xeng_acc_len>128</xeng_acc_len> <!-- accumulation in the xengine block-->
<qdr_acc_len>256</qdr_acc_len> <!-- accumulation length in the QDR, total accumulation length is xeng_acc_len*qdr_acc_len-->
<clk_per_sync>262144</clk_per_sync> <!--Number of F engine clock cycles between X engine syncs. This is generated by the descramble block in the X engines. 2^18 = 262144-->
<ntp_server>192.167.189.67</ntp_server>
<udp_output>
<tx_ip>192.168.11.104</tx_ip> <!-- FPGA IP address-->
<rx_ip>192.168.11.12</rx_ip> <!-- IP address to send integration packets to-->
<rx_port>7148</rx_port>
<spead_ip>192.167.189.74</spead_ip><!-- IP Address to send Meta data packets to-->
<file_time>1200</file_time><!-- Time per file (seconds)-->
</udp_output>
</xengine>
<sengine id='0' name="s" port='7147'>
<bitstream>seng_latest3.bof</bitstream>
<clk>180000000</clk> <!-- clk rate in Hz-->
<n_ants>32</n_ants> <!-- Number of antennas processed -->
<grid>
<x_dim>4</x_dim> <!-- size of grid in x dimension -->
<y_dim>8</y_dim> <!-- size of grid in y dimension -->
</grid>
<n_stokes>1</n_stokes> <!-- Number of stokes parameters calculated -->
<is_dual_pol>False</is_dual_pol> <!-- Is the output dual pol -->
<s_per_fpga>1</s_per_fpga> <!-- number of s-engine blocks per FPGA-->
<x_fft_shift>0b111</x_fft_shift> <!-- FFT shifting schedule for first spatial FFT-->
<y_fft_shift>0b1111</y_fft_shift> <!-- FFT shifting schedule for second spatial FFT-->
<!-- acc scale: 1 gaurantees no overflow. 2^(16-N) where N is 16-log2(qdr_acc_len) should
not be able to overflow -->
<acc_scale>4096</acc_scale> <!--Scaling factor by which to scale 'image' before accumulating-->
<int_acc_len>128</int_acc_len> <!-- Integration length before QDR-->
<acc_len>256</acc_len> <!-- Number of vectors to accumulate in QDR-->
<bits>4</bits> <!-- number of quantization bits-->
<fix_pnt_pos>3</fix_pnt_pos> <!-- position of binary point-->
<bits_out>32</bits_out> <!-- number of bits in vacc output-->
<udp_output>
<tx_ip>192.168.10.11</tx_ip> <!-- FPGA IP address-->
<rx_ip>192.168.10.5</rx_ip> <!-- IP address to send integration packets to-->
<rx_port>7149</rx_port> <!-- Port to sent integration packets to-->
</udp_output>
<beam_config>
<packet_size>4096</packet_size>
<samples_per_block>128</samples_per_block>
<bytes_per_sample>4</bytes_per_sample>
<start_chan>152</start_chan> <!--THIS SHOULD BE IN INCREMENTS OF CHANS/PACKET, CURRENTLY 8-->
<end_chan>663</end_chan> <!--THIS SHOULD BE IN INCREMENTS OF (N_CHANS-1) - CHANS/PACKET-->
<!--The IP and MAC below are required by the medicina system. They can be generated for a given roach and port
using the medroach.utils.get_port_params(roach_hostname, 10gbe_port). These must be changed if the roach
being used changes, otherwise address clashes will occur on the network-->
<beam_output id='0' name='ten_Gbe_v2' ip='192.168.11.133' dest_ip='192.168.11.12' port='10000' mac='0x0060c0a80b85'>
<beam id='0'>
<x>0</x>
<y>0</y>
</beam>
<!-- <beam id='1'>
<x>0</x>
<y>1</y>
</beam>
<beam id='2'>
<x>0</x>
<y>2</y>
</beam>
<beam id='3'>
<x>0</x>
<y>3</y>
</beam>
<beam id='4'>
<x>0</x>
<y>4</y>
</beam>
<beam id='5'>
<x>0</x>
<y>5</y>
</beam>
<beam id='6'>
<x>0</x>
<y>6</y>
</beam>
<beam id='7'>
<x>0</x>
<y>7</y>
</beam> -->
</beam_output>
</beam_config>
</sengine>
<receiver>
<sengine>
<file_time>1800</file_time> <!-- Time per file (seconds)-->
<rx_ip>192.168.10.5</rx_ip> <!-- IP address on which to listen for data -->
<rx_port>7149</rx_port> <!-- Port on which to listen for data-->
<spead_ip>192.168.10.5</spead_ip><!-- IP Address to send Meta data packets to-->
</sengine>
</receiver>
</instrument>