[[TracNav(WARPLab/TOC)]] = Trigger Manager = == System Requirements == * Review the [wiki:../../Requirements WARPLab 7 System Requirements] == Overview == The Trigger Manager was designed to allow flexible coordination and communication between nodes. Each trigger is assigned an ID and then all configuration of the trigger manager is based on these IDs. By default, WARPLab has the following triggers: * Input Triggers * External Pins (For example: D0 - D3, pins 12 - 15 on the [wiki:WARPLab/HardwareConfiguration#DebugHeader debug header] in the WARPLab reference design) * Ethernet Packets * Register writes (used for WARP v2 compatibility) * Input Energy * Automatic Gain Control (AGC) Done [[Image(Trigger_Input_Configuration.png)]] '''NOTE:''' Each input has configuration options that can be found in the [wiki:WARPLab/Reference/Commands/TriggerManager Trigger Manager Command Reference]. * Output Triggers * External Pins (For example: D0 - D3, pins 8 - 11 on the [wiki:WARPLab/HardwareConfiguration#DebugHeader debug header] in the WARPLab reference design) * Baseband * Automatic Gain Control (AGC) Start [[Image(Trigger_Output_Configuration.png)]] '''NOTE:''' Each output can be based on a configurable set of inputs as well as a logical combination of inputs. The above diagram is replicated per trigger output, so that each one can have its own, independent configuration. == Hardware Setup == The Trigger Manager consists of both a hardware block that runs within the FPGA and a [wiki:WARPLab/Reference/Commands/TriggerManager software framework] to configure and use the Trigger Manager. You can see the instantiation of the Trigger Manager block as well as the default connections within the system.mhs file: {{{ # Default configuration of the Trigger Manager in system.mhs BEGIN w3_warplab_trigger_proc_axiw PARAMETER INSTANCE = warplab_trigger_proc PARAMETER HW_VER = 1.01.a PARAMETER C_BASEADDR = 0x77800000 PARAMETER C_HIGHADDR = 0x7780ffff BUS_INTERFACE S_AXI = axi4lite_1 BUS_INTERFACE AXI_STR_ETH_RXD = ETH_A_AXI_STR_RXD PORT axi_aclk = clk_160MHz PORT sysgen_clk = clk_160MHz # Triggers PORT agc_done_in = agc_is_done PORT debug_0_in = trig_0_in PORT debug_1_in = trig_1_in PORT debug_2_in = trig_2_in PORT debug_3_in = trig_3_in PORT rfa_rssi = warplab_rfa_rssi PORT rfb_rssi = warplab_rfb_rssi PORT rfc_rssi = net_gnd PORT rfd_rssi = net_gnd PORT rssi_clk = warplab_rssi_clk PORT trig_0_out = baseband_trigger PORT trig_1_out = agc_start PORT trig_2_out = trig_2_out PORT trig_3_out = trig_3_out PORT trig_4_out = trig_4_out PORT trig_5_out = trig_5_out END }}} The ''trig_*_in'' and ''trig_*_out'' signals are connected to the [wiki:WARPLab/HardwareConfiguration#DebugHeader debug header] and can be used to externally trigger events. == Examples == In our examples, we have two nodes, a transmitter ( nodes(1) ) and a receiver ( nodes(2) ): * Create a UDP broadcast trigger and trigger the transmitting node with the Ethernet packet {{{ eth_trig = wl_trigger_eth_udp_broadcast; nodes(1).wl_triggerManagerCmd('add_ethernet_trigger',[eth_trig]); }}} '''NOTE:''' This will allow a host, like Matlab, to create an Ethernet packet to begin transmission * Read Trigger IDs into workspace {{{ [T_IN_ETH,T_IN_ENERGY,T_IN_AGCDONE,T_IN_REG,T_IN_D0,T_IN_D1,T_IN_D2,T_IN_D3] = wl_getTriggerInputIDs(nodes(1)); [T_OUT_BASEBAND, T_OUT_AGC, T_OUT_D0, T_OUT_D1, T_OUT_D2, T_OUT_D3] = wl_getTriggerOutputIDs(nodes(1)); }}} '''NOTE:''' These trigger IDs will be the same for all nodes in the system and should not be modified by the user. * For the transmit node, allow Ethernet to trigger the buffer baseband, the AGC, and Trigger output 0 (which is mapped by default in the WARPLab reference design to pin 8 on the [wiki:WARPLab/HardwareConfiguration#DebugHeader debug header]) {{{ nodes(1).wl_triggerManagerCmd('output_config_input_selection',[T_OUT_BASEBAND,T_OUT_AGC,T_OUT_D0],[T_IN_ETH,T_IN_REG]); }}} '''NOTE:''' We use both {{{T_IN_ETH}}} and {{{T_IN_REG}}} so this example is compatible with both WARP v2 and WARP v3 hardware. If using WARP v3 hardware, only {{{T_IN_ETH}}} is needed as the source of the trigger. * For the receive node, allow the energy detector to trigger the buffer baseband and AGC core: {{{ nodes(2).wl_triggerManagerCmd('output_config_input_selection',[T_OUT_BASEBAND,T_OUT_AGC],[T_IN_ENERGY]); }}} Then enable the hold mode for the triggers driven by energy detection. This will prevent the buffer from being overwritten before we have a chance to read it: {{{ nodes(2).wl_triggerManagerCmd('output_config_hold_mode',[T_OUT_BASEBAND,T_OUT_AGC],'enable'); }}} Then get the IDs for the interfaces on the board and setup the configuration of the energy monitoring: {{{ [RFA,RFB] = wl_getInterfaceIDs(nodes(2)); rssi_sum_len = 15; nodes(2).wl_triggerManagerCmd('energy_config_average_length',rssi_sum_len); nodes(2).wl_triggerManagerCmd('energy_config_busy_threshold',rssi_sum_len*500); nodes(2).wl_triggerManagerCmd('energy_config_busy_minlength',10); nodes(2).wl_triggerManagerCmd('energy_config_interface_selection',RFA+RFB); }}} Finally, when done processing, we can clear the energy detection trigger since it is holding the output due to setting the {{{'output_config_hold_mode'}}} {{{ nodes(2).wl_triggerManagerCmd('output_state_clear',[T_OUT_BASEBAND,T_OUT_AGC]); }}} * For the receive node, allow trigger input to trigger the buffer baseband and the AGC (this example assumes the WARPLab reference design configuration where we should connect trigger output 0, pin 8 of the [wiki:WARPLab/HardwareConfiguration#DebugHeader debug header], of the transmit node to trigger input 3, pin 15 of the [wiki:WARPLab/HardwareConfiguration#DebugHeader debug header], of the receive node): {{{ nodes(2).wl_triggerManagerCmd('output_config_input_selection',[T_OUT_BASEBAND,T_OUT_AGC],[T_IN_D3]); }}} We will also enable the debounce circuitry on the trigger input to help with noise on the signal line: {{{ nodes(2).wl_triggerManagerCmd('input_config_debounce_mode',[T_IN_D3],'enable'); }}} Since the debounce circuitry is enabled, there will be a delay at the receiver node for its input trigger. To better align the transmitter and receiver, we can artifically delay the transmitters trigger outputs that drive the buffer baseband and the AGC: {{{ nodes(1).wl_triggerManagerCmd('output_config_delay',[T_OUT_BASEBAND,T_OUT_AGC],[50]); %50ns delay }}} '''NOTE:''' The 50 ns delay was measured using the oscilloscope. The procedure can be found here (Coming soon ...). == Getting Help == If you have any additional questions, please post to the [http://warp.rice.edu/forums/ WARP Forums].