package require math ## Global variables for interconnect interface indexing # set sys_cpu_interconnect_index 0 set sys_hp0_interconnect_index -1 set sys_hp1_interconnect_index -1 set sys_hp2_interconnect_index -1 set sys_hp3_interconnect_index -1 set sys_mem_interconnect_index -1 set sys_mem_clk_index 0 set xcvr_index -1 set xcvr_tx_index 0 set xcvr_rx_index 0 set xcvr_instance NONE ## Add an instance of an IP to the block design. # # \param[i_ip] - name of the IP # \param[i_name] - name of the instance # \param[i_params] - a list of the parameters, the list must contain {name, value} # pairs # proc ad_ip_instance {i_ip i_name {i_params {}}} { set cell [create_bd_cell -type ip -vlnv [get_ipdefs -all -filter "VLNV =~ *:${i_ip}:* && \ design_tool_contexts =~ *IPI* && UPGRADE_VERSIONS == \"\""] ${i_name}] if {$i_params != {}} { set config {} # Add CONFIG. prefix to all config options foreach {k v} $i_params { lappend config "CONFIG.$k" $v } set_property -dict $config $cell } } ## Define a parameter value of an IP instance. # # \param[i_name] - name of the instance # \param[i_param] - name of the parameter # \param[i_value] - value of the parameter # proc ad_ip_parameter {i_name i_param i_value} { set_property ${i_param} ${i_value} [get_bd_cells ${i_name}] } ## Define the type of an IPI interface object, in general these objects an be: # interface pins, ports or nets; or cells pins, ports or nets. # # \param[p_name] - name of the object # # \return - the type of the object # proc ad_connect_type {p_name} { set m_name "" if {$m_name eq ""} {set m_name [get_bd_intf_pins -quiet $p_name]} if {$m_name eq ""} {set m_name [get_bd_pins -quiet $p_name]} if {$m_name eq ""} {set m_name [get_bd_intf_ports -quiet $p_name]} if {$m_name eq ""} {set m_name [get_bd_ports -quiet $p_name]} if {$m_name eq ""} {set m_name [get_bd_intf_nets -quiet $p_name]} if {$m_name eq ""} {set m_name [get_bd_nets -quiet $p_name]} return $m_name } ## Get type of object, for internal use only! proc ad_connect_int_class {p_name} { set m_name "" if {$m_name eq ""} {set m_name [get_bd_intf_pins -quiet $p_name]} if {$m_name eq ""} {set m_name [get_bd_pins -quiet $p_name]} # All ports can be handled as pins # if {$m_name eq ""} {set m_name [get_bd_intf_ports -quiet $p_name]} # if {$m_name eq ""} {set m_name [get_bd_ports -quiet $p_name]} if {$m_name eq ""} {set m_name [get_bd_intf_nets -quiet $p_name]} if {$m_name eq ""} {set m_name [get_bd_nets -quiet $p_name]} if {!($m_name eq "")} { return [get_property CLASS $m_name] } if {$p_name eq "GND" || $p_name eq "VCC"} { return "const" } return "newnet" } ## Get constant source, for internal use only! proc ad_connect_int_get_const {name width} { switch $name { GND { set value 0 } VCC { set value [expr (1 << $width) - 1] } default { error "ERROR: ad_connect_int_get_const: Unhandled constant name $name" } } set cell_name "$name\_$width" set cell [get_bd_cells -quiet $cell_name] if {$cell eq ""} { # Create new constant source ad_ip_instance xlconstant $cell_name set cell [get_bd_cells -quiet $cell_name] set_property CONFIG.CONST_WIDTH $width $cell set_property CONFIG.CONST_VAL $value $cell } return $cell } ## Determine pin/port/net width, for internal use only! proc ad_connect_int_width {obj} { if {$obj eq ""} { error "ERROR: ad_connect_int_width: No object provided." } set classname [get_property -quiet CLASS $obj] if {$classname eq ""} { error "ERROR: ad_connect_int_width: Cannot determine width of class-less object: $obj" } if {[string first intf $classname] != -1} { error "ERROR: ad_connect_int_width: Cannot determine width of interface object: $obj ($classname)" } if {([get_property -quiet LEFT $obj] eq "") || ([get_property -quiet RIGHT $obj] eq "")} { return 1 } set left [get_property LEFT $obj] set right [get_property RIGHT $obj] set high [::math::max $left $right] set low [::math::min $left $right] return [expr {1 + $high - $low}] } ## Connect two IPI interface object together. # # \param[p_name_1] - first object name # \param[p_name_2] - second object name # # Valid object types are: GND/VCC, net/port/pin names or interface names # # \return - N/A # proc ad_connect {name_a name_b} { set type_a [ad_connect_int_class $name_a] set type_b [ad_connect_int_class $name_b] set obj_a [ad_connect_type $name_a] set obj_b [ad_connect_type $name_b] if {!([string first intf $type_a]+1) != !([string first intf $type_b]+1)} { error "ERROR: ad_connect: Cannot connect non-interface to interface: $name_a ($type_a) <-/-> $name_b ($type_b)" } switch $type_a,$type_b { newnet,newnet { error "ERROR: ad_connect: Cannot create connection between two new nets: $name_a <-/-> $name_b" } const,const { error "ERROR: ad_connect: Cannot connect constant to constant: $name_a <-/-> $name_b" } bd_net,bd_net - bd_intf_net,bd_intf_net { error "ERROR: ad_connect: Cannot connect (intf) net to (intf) net: $name_a ($type_a) <-/-> $name_b ($type_b)" } bd_net,newnet - newnet,bd_net { error "ERROR: ad_connect: Cannot connect existing net to new net: $name_a ($type_a) <-/-> $name_b ($type_b)" } const,newnet - newnet,const { error "ERROR: ad_connect: Cannot connect new network to constant, instead you should connect to the constant directly: $name_a ($type_a) <-/-> $name_b ($type_b)" } bd_pin,bd_pin { connect_bd_net $obj_a $obj_b puts "connect_bd_net $obj_a $obj_b" return } bd_net,bd_pin { connect_bd_net -net $obj_a $obj_b puts "connect_bd_net -net $obj_a $obj_b" return } bd_pin,bd_net { connect_bd_net -net $obj_b $obj_a puts "connect_bd_net -net $obj_b $obj_a" return } bd_pin,newnet { connect_bd_net -net $name_b $obj_a puts "connect_bd_net -net $name_b $obj_a" return } newnet,bd_pin { connect_bd_net -net $name_a $obj_b puts "connect_bd_net -net $name_a $obj_b" return } bd_intf_pin,bd_intf_pin { connect_bd_intf_net $obj_a $obj_b puts "connect_bd_intf_net $obj_a $obj_b" return } const,bd_pin - const,bd_net { # Handled after the switch statement } bd_net,const - bd_pin,const { # Swap vars set tmp $obj_a set obj_a $obj_b set obj_b $tmp set tmp $name_a set name_a $name_b set name_b $tmp # Handled after the switch statement } default { error "ERROR: ad_connect: Cannot connect, case unhandled: $name_a ($type_a) <-/-> $name_b ($type_b)" } } # Continue working on nets that connect to constant. obj_b is the net/pin set width [ad_connect_int_width $obj_b] set cell [ad_connect_int_get_const $name_a $width] connect_bd_net [get_bd_pin $cell/dout] $obj_b puts "connect_bd_net [get_bd_pin $cell/dout] $obj_b" } ## Disconnect two IPI interface object together. # # \param[p_name_1] - first object name # \param[p_name_2] - second object name # # Valid object types are: GND/VCC, net/port/pin names or interface names # # \return - N/A # proc ad_disconnect {p_name_1 p_name_2} { set m_name_1 [ad_connect_type $p_name_1] set m_name_2 [ad_connect_type $p_name_2] if {[get_property CLASS $m_name_1] eq "bd_net"} { disconnect_bd_net $m_name_1 $m_name_2 return } if {[get_property CLASS $m_name_1] eq "bd_port"} { delete_bd_objs -quiet [get_bd_nets -quiet -of_objects \ [find_bd_objs -relation connected_to $m_name_1]] delete_bd_objs -quiet $m_name_1 return } if {[get_property CLASS $m_name_1] eq "bd_pin"} { delete_bd_objs -quiet [get_bd_nets -quiet -of_objects \ [find_bd_objs -relation connected_to $m_name_1]] delete_bd_objs -quiet $m_name_1 return } } ## Define all the connections between the transceiver IP, the transceiver # configuration IP and the JESD204 Link IP. # # \param[u_xcvr] - name of the transceiver IP (util_adxcvr) # \param[a_xcvr] - name of the transceiver configuration IP (axi_adxcvr) # \param[a_jesd] - name of the JESD204 link IP # \param[lane_map] - lane_map maps the logical lane $n onto the physical lane # $lane_map[$n], otherwise logical lane $n is mapped onto physical lane $n. # \param[link_clk] - define a custom link clock, should be a net name # connected to the clock source. If not used, the rx|tx_clk_out_0 is used as # link clock. This should be lane rate / (encoder_ratio*datapath width in bits) # where encoder_ratio is 10/8 for 8b10b encoding or 66/64 for 64b66b link layer. # \param[device_clk] - define a custom device clock, should be a net name # connected to the clock source. If not used, the link_clk is used as # device clock # \param[num_of_max_lanes] - maximum number of used lanes at physical layer per link, # this parameter is used only when the project is parameterized in order to connect the unused lanes # to the util_adxcvr block. If not used, the number of connected lanes will be defined # by the axi_adxcvr. # proc ad_xcvrcon {u_xcvr a_xcvr a_jesd {lane_map {}} {link_clk {}} {device_clk {}} {num_of_max_lanes -1}} { global xcvr_index global xcvr_tx_index global xcvr_rx_index global xcvr_instance set no_of_lanes [get_property CONFIG.NUM_OF_LANES [get_bd_cells $a_xcvr]] set qpll_enable [get_property CONFIG.QPLL_ENABLE [get_bd_cells $a_xcvr]] set tx_or_rx_n [get_property CONFIG.TX_OR_RX_N [get_bd_cells $a_xcvr]] set xcvr_type [get_property CONFIG.XCVR_TYPE [get_bd_cells $u_xcvr]] set link_mode_u [get_property CONFIG.LINK_MODE [get_bd_cells $u_xcvr]] set link_mode_a [get_property CONFIG.LINK_MODE [get_bd_cells $a_xcvr]] if {$link_mode_u != $link_mode_a} { puts "CRITICAL WARNING: LINK_MODE parameter mismatch between $u_xcvr ($link_mode_u) and $a_xcvr ($link_mode_a)" } set link_mode $link_mode_u set jesd204_bd_type [get_property TYPE [get_bd_cells $a_jesd]] if {$jesd204_bd_type == "hier"} { set jesd204_type 0 } else { set jesd204_type 1 } if {$xcvr_instance ne $u_xcvr} { set xcvr_index [expr ($xcvr_index + 1)] set xcvr_tx_index 0 set xcvr_rx_index 0 set xcvr_instance $u_xcvr } set txrx "rx" set data_dir "I" set ctrl_dir "O" set index $xcvr_rx_index set max_no_of_lanes $no_of_lanes if {$num_of_max_lanes != -1} { set max_no_of_lanes $num_of_max_lanes } if {$tx_or_rx_n == 1} { set txrx "tx" set data_dir "O" set ctrl_dir "I" set index $xcvr_tx_index } set m_sysref ${txrx}_sysref_${index} set m_sync ${txrx}_sync_${index} set m_data ${txrx}_data if {$xcvr_index >= 1} { set m_sysref ${txrx}_sysref_${xcvr_index}_${index} set m_sync ${txrx}_sync_${xcvr_index}_${index} set m_data ${txrx}_data_${xcvr_index} } if {$jesd204_type == 0} { set num_of_links [get_property CONFIG.NUM_LINKS [get_bd_cells $a_jesd/$txrx]] } else { set num_of_links 1 } create_bd_port -dir I $m_sysref create_bd_port -from [expr $num_of_links - 1] -to 0 -dir ${ctrl_dir} $m_sync set use_2x_clk 0 if {$link_clk == {}} { # For 204C modes on GTH a 2x clock is required to drive the PCS # In such case set the xcvr out clock to be the double of the lane rate/66(40) # and use the secondary div2 clock output for the link clock if {$link_mode == 2 && ($xcvr_type == 5 || $xcvr_type == 8)} { set link_clk ${u_xcvr}/${txrx}_out_clk_div2_${index} set link_clk_2x ${u_xcvr}/${txrx}_out_clk_${index} set use_2x_clk 1 } else { set link_clk ${u_xcvr}/${txrx}_out_clk_${index} } set rst_gen [regsub -all "/" ${a_jesd}_rstgen "_"] set create_rst_gen 1 } else { set rst_gen ${link_clk}_rstgen # Only create one reset gen per clock set create_rst_gen [expr {[get_bd_cells -quiet ${rst_gen}] == {}}] } if {$device_clk == {}} { set device_clk $link_clk } else { set rst_gen ${device_clk}_rstgen # Only create one reset gen per clock set create_rst_gen [expr {[get_bd_cells -quiet ${rst_gen}] == {}}] } if {${create_rst_gen}} { ad_ip_instance proc_sys_reset ${rst_gen} ad_connect ${device_clk} ${rst_gen}/slowest_sync_clk ad_connect sys_cpu_resetn ${rst_gen}/ext_reset_in } for {set n 0} {$n < $no_of_lanes} {incr n} { set m [expr ($n + $index)] if {$lane_map != {}} { set phys_lane [lindex $lane_map $n] } else { set phys_lane $m } if {$tx_or_rx_n == 0} { ad_connect ${a_xcvr}/up_es_${n} ${u_xcvr}/up_es_${phys_lane} if {$jesd204_type == 0} { if {$link_mode == 1} { ad_connect ${a_jesd}/phy_en_char_align ${u_xcvr}/${txrx}_calign_${phys_lane} } } else { ad_connect ${a_jesd}/rxencommaalign_out ${u_xcvr}/${txrx}_calign_${phys_lane} } } if {(($n%4) == 0) && ($qpll_enable == 1)} { ad_connect ${a_xcvr}/up_cm_${n} ${u_xcvr}/up_cm_${n} } ad_connect ${a_xcvr}/up_ch_${n} ${u_xcvr}/up_${txrx}_${phys_lane} ad_connect ${link_clk} ${u_xcvr}/${txrx}_clk_${phys_lane} if {$use_2x_clk == 1} { ad_connect ${link_clk_2x} ${u_xcvr}/${txrx}_clk_2x_${phys_lane} } if {$phys_lane != {}} { if {$jesd204_type == 0} { ad_connect ${u_xcvr}/${txrx}_${phys_lane} ${a_jesd}/${txrx}_phy${n} } else { ad_connect ${u_xcvr}/${txrx}_${phys_lane} ${a_jesd}/gt${n}_${txrx} } } create_bd_port -dir ${data_dir} ${m_data}_${m}_p create_bd_port -dir ${data_dir} ${m_data}_${m}_n ad_connect ${u_xcvr}/${txrx}_${m}_p ${m_data}_${m}_p ad_connect ${u_xcvr}/${txrx}_${m}_n ${m_data}_${m}_n } for {set n $no_of_lanes} {$n < $max_no_of_lanes} {incr n} { set m [expr ($n + $index)] if {$lane_map != {}} { set phys_lane [lindex $lane_map $n] } else { set phys_lane $m } create_bd_port -dir ${data_dir} ${m_data}_${m}_p create_bd_port -dir ${data_dir} ${m_data}_${m}_n ad_connect ${u_xcvr}/${txrx}_${m}_p ${m_data}_${m}_p ad_connect ${u_xcvr}/${txrx}_${m}_n ${m_data}_${m}_n ad_connect ${link_clk} ${u_xcvr}/${txrx}_clk_${phys_lane} if {$tx_or_rx_n == 0} { ad_connect ${a_jesd}/phy_en_char_align ${u_xcvr}/${txrx}_calign_${phys_lane} } } if {$jesd204_type == 0} { ad_connect ${a_jesd}/sysref $m_sysref if {$link_mode == 1} { ad_connect ${a_jesd}/sync $m_sync } ad_connect ${device_clk} ${a_jesd}/device_clk ad_connect ${link_clk} ${a_jesd}/link_clk } else { ad_connect ${a_jesd}/${txrx}_sysref $m_sysref ad_connect ${a_jesd}/${txrx}_sync $m_sync ad_connect ${device_clk} ${a_jesd}/${txrx}_core_clk ad_connect ${a_xcvr}/up_status ${a_jesd}/${txrx}_reset_done ad_connect ${rst_gen}/peripheral_reset ${a_jesd}/${txrx}_reset } if {$tx_or_rx_n == 0} { set xcvr_rx_index [expr ($xcvr_rx_index + $max_no_of_lanes)] } if {$tx_or_rx_n == 1} { set xcvr_tx_index [expr ($xcvr_tx_index + $max_no_of_lanes)] } } ## Connect all the PLL clock and reset ports of the transceiver IP to a clock # or reset source. # # \param[m_src] - name of the clock or reset source # \param[m_dst] - name or list of names of the clock or reset sink # proc ad_xcvrpll {m_src m_dst} { foreach p_dst [get_bd_pins -quiet $m_dst] { connect_bd_net [ad_connect_type $m_src] $p_dst } } ################################################################################################### ################################################################################################### ## Create an memory mapped interface connection to a MIG or PS7/8 IP, using a # HP0 high speed interface in case of PSx. # # \param[p_clk] - name of the clock or reset source # \param[p_name] - name or list of names of the clock or reset sink # proc ad_mem_hp0_interconnect {p_clk p_name} { global sys_zynq if {($sys_zynq != 1 && $sys_zynq != 2) && ($p_name eq "sys_ps7/S_AXI_HP0")} {return} if {$sys_zynq == -1} {ad_mem_hpx_interconnect "SIM" $p_clk $p_name} if {$sys_zynq == 0} {ad_mem_hpx_interconnect "MEM" $p_clk $p_name} if {$sys_zynq == 1} {ad_mem_hpx_interconnect "HP0" $p_clk $p_name} if {$sys_zynq == 2} {ad_mem_hpx_interconnect "HP0" $p_clk $p_name} if {$sys_zynq == 3} {ad_mem_hpx_interconnect "NOC" $p_clk $p_name} } ## Create an memory mapped interface connection to a MIG or PS7/8 IP, using a # HP1 high speed interface in case of PSx. # # \param[p_clk] - name of the clock or reset source # \param[p_name] - name or list of names of the clock or reset sink # proc ad_mem_hp1_interconnect {p_clk p_name} { global sys_zynq if {($sys_zynq != 1 && $sys_zynq != 2) && ($p_name eq "sys_ps7/S_AXI_HP1")} {return} if {$sys_zynq == -1} {ad_mem_hpx_interconnect "SIM" $p_clk $p_name} if {$sys_zynq == 0} {ad_mem_hpx_interconnect "MEM" $p_clk $p_name} if {$sys_zynq == 1} {ad_mem_hpx_interconnect "HP1" $p_clk $p_name} if {$sys_zynq == 2} {ad_mem_hpx_interconnect "HP1" $p_clk $p_name} if {$sys_zynq == 3} {ad_mem_hpx_interconnect "NOC" $p_clk $p_name} } ## Create an memory mapped interface connection to a MIG or PS7/8 IP, using a # HP2 high speed interface in case of PSx. # # \param[p_clk] - name of the clock or reset source # \param[p_name] - name or list of names of the clock or reset sink # proc ad_mem_hp2_interconnect {p_clk p_name} { global sys_zynq if {($sys_zynq != 1 && $sys_zynq != 2) && ($p_name eq "sys_ps7/S_AXI_HP2")} {return} if {$sys_zynq == -1} {ad_mem_hpx_interconnect "SIM" $p_clk $p_name} if {$sys_zynq == 0} {ad_mem_hpx_interconnect "MEM" $p_clk $p_name} if {$sys_zynq == 1} {ad_mem_hpx_interconnect "HP2" $p_clk $p_name} if {$sys_zynq == 2} {ad_mem_hpx_interconnect "HP2" $p_clk $p_name} if {$sys_zynq == 3} {ad_mem_hpx_interconnect "NOC" $p_clk $p_name} } ## Create an memory mapped interface connection to a MIG or PS7/8 IP, using a # HP3 high speed interface in case of PSx. # # \param[p_clk] - name of the clock or reset source # \param[p_name] - name or list of names of the clock or reset sink # proc ad_mem_hp3_interconnect {p_clk p_name} { global sys_zynq if {($sys_zynq != 1 && $sys_zynq != 2) && ($p_name eq "sys_ps7/S_AXI_HP3")} {return} if {$sys_zynq == -1} {ad_mem_hpx_interconnect "SIM" $p_clk $p_name} if {$sys_zynq == 0} {ad_mem_hpx_interconnect "MEM" $p_clk $p_name} if {$sys_zynq == 1} {ad_mem_hpx_interconnect "HP3" $p_clk $p_name} if {$sys_zynq == 2} {ad_mem_hpx_interconnect "HP3" $p_clk $p_name} if {$sys_zynq == 3} {ad_mem_hpx_interconnect "NOC" $p_clk $p_name} } ## Create an memory mapped interface connection to a MIG or PS7/8 IP, proc is # called in the ad_mem_hp[0|1|2|3]_interconnect processes, should never be # directly called in block designs. # # \param[p_sel] - name of the high speed interface, valid values are HP0, HP1 # HP2, HP3, MEM in case of Microblaze, or SIM in case of simulation # \param[p_clk] - name of the clock or reset source # \param[p_name] - name or list of names of the clock or reset sink # proc ad_mem_hpx_interconnect {p_sel p_clk p_name} { global sys_zynq global sys_ddr_addr_seg global sys_hp0_interconnect_index global sys_hp1_interconnect_index global sys_hp2_interconnect_index global sys_hp3_interconnect_index global sys_mem_interconnect_index global sys_mem_clk_index set p_name_int $p_name set p_clk_source [get_bd_pins -filter {DIR == O} -of_objects [get_bd_nets $p_clk]] if {$p_sel eq "SIM"} { if {$sys_mem_interconnect_index < 0} { ad_ip_instance smartconnect axi_mem_interconnect } set m_interconnect_index $sys_mem_interconnect_index set m_interconnect_cell [get_bd_cells axi_mem_interconnect] set m_addr_seg [get_bd_addr_segs -of_objects [get_bd_cells ddr_axi_vip]] } if {$p_sel eq "MEM"} { if {$sys_mem_interconnect_index < 0} { ad_ip_instance smartconnect axi_mem_interconnect } set m_interconnect_index $sys_mem_interconnect_index set m_interconnect_cell [get_bd_cells axi_mem_interconnect] set m_addr_seg [get_bd_addr_segs -of_objects [get_bd_cells axi_ddr_cntrl] -filter "USAGE == memory"] } if {($p_sel eq "HP0") && ($sys_zynq == 1)} { if {$sys_hp0_interconnect_index < 0} { set p_name_int sys_ps7/S_AXI_HP0 set_property CONFIG.PCW_USE_S_AXI_HP0 {1} [get_bd_cells sys_ps7] ad_ip_instance smartconnect axi_hp0_interconnect } set m_interconnect_index $sys_hp0_interconnect_index set m_interconnect_cell [get_bd_cells axi_hp0_interconnect] set m_addr_seg [get_bd_addr_segs sys_ps7/S_AXI_HP0/HP0_DDR_LOWOCM] } if {($p_sel eq "HP1") && ($sys_zynq == 1)} { if {$sys_hp1_interconnect_index < 0} { set p_name_int sys_ps7/S_AXI_HP1 set_property CONFIG.PCW_USE_S_AXI_HP1 {1} [get_bd_cells sys_ps7] ad_ip_instance smartconnect axi_hp1_interconnect } set m_interconnect_index $sys_hp1_interconnect_index set m_interconnect_cell [get_bd_cells axi_hp1_interconnect] set m_addr_seg [get_bd_addr_segs sys_ps7/S_AXI_HP1/HP1_DDR_LOWOCM] } if {($p_sel eq "HP2") && ($sys_zynq == 1)} { if {$sys_hp2_interconnect_index < 0} { set p_name_int sys_ps7/S_AXI_HP2 set_property CONFIG.PCW_USE_S_AXI_HP2 {1} [get_bd_cells sys_ps7] ad_ip_instance smartconnect axi_hp2_interconnect } set m_interconnect_index $sys_hp2_interconnect_index set m_interconnect_cell [get_bd_cells axi_hp2_interconnect] set m_addr_seg [get_bd_addr_segs sys_ps7/S_AXI_HP2/HP2_DDR_LOWOCM] } if {($p_sel eq "HP3") && ($sys_zynq == 1)} { if {$sys_hp3_interconnect_index < 0} { set p_name_int sys_ps7/S_AXI_HP3 set_property CONFIG.PCW_USE_S_AXI_HP3 {1} [get_bd_cells sys_ps7] ad_ip_instance smartconnect axi_hp3_interconnect } set m_interconnect_index $sys_hp3_interconnect_index set m_interconnect_cell [get_bd_cells axi_hp3_interconnect] set m_addr_seg [get_bd_addr_segs sys_ps7/S_AXI_HP3/HP3_DDR_LOWOCM] } if {($p_sel eq "HP0") && ($sys_zynq == 2)} { if {$sys_hp0_interconnect_index < 0} { set p_name_int sys_ps8/S_AXI_HP0_FPD set_property CONFIG.PSU__USE__S_AXI_GP2 {1} [get_bd_cells sys_ps8] ad_ip_instance smartconnect axi_hp0_interconnect } set m_interconnect_index $sys_hp0_interconnect_index set m_interconnect_cell [get_bd_cells axi_hp0_interconnect] set m_addr_seg [get_bd_addr_segs sys_ps8/SAXIGP2/HP0_DDR_*] } if {($p_sel eq "HP1") && ($sys_zynq == 2)} { if {$sys_hp1_interconnect_index < 0} { set p_name_int sys_ps8/S_AXI_HP1_FPD set_property CONFIG.PSU__USE__S_AXI_GP3 {1} [get_bd_cells sys_ps8] ad_ip_instance smartconnect axi_hp1_interconnect } set m_interconnect_index $sys_hp1_interconnect_index set m_interconnect_cell [get_bd_cells axi_hp1_interconnect] set m_addr_seg [get_bd_addr_segs sys_ps8/SAXIGP3/HP1_DDR_*] } if {($p_sel eq "HP2") && ($sys_zynq == 2)} { if {$sys_hp2_interconnect_index < 0} { set p_name_int sys_ps8/S_AXI_HP2_FPD set_property CONFIG.PSU__USE__S_AXI_GP4 {1} [get_bd_cells sys_ps8] ad_ip_instance smartconnect axi_hp2_interconnect } set m_interconnect_index $sys_hp2_interconnect_index set m_interconnect_cell [get_bd_cells axi_hp2_interconnect] set m_addr_seg [get_bd_addr_segs sys_ps8/SAXIGP4/HP2_DDR_*] } if {($p_sel eq "HP3") && ($sys_zynq == 2)} { if {$sys_hp3_interconnect_index < 0} { set p_name_int sys_ps8/S_AXI_HP3_FPD set_property CONFIG.PSU__USE__S_AXI_GP5 {1} [get_bd_cells sys_ps8] ad_ip_instance smartconnect axi_hp3_interconnect } set m_interconnect_index $sys_hp3_interconnect_index set m_interconnect_cell [get_bd_cells axi_hp3_interconnect] set m_addr_seg [get_bd_addr_segs sys_ps8/SAXIGP5/HP3_DDR_*] } if {$p_sel eq "NOC"} { set m_interconnect_index [get_property CONFIG.NUM_SI [get_bd_cells axi_noc_0]] set m_interconnect_cell [get_bd_cells axi_noc_0] set m_addr_seg [get_bd_addr_segs axi_noc_0/S[format "%02s" [expr $m_interconnect_index +1]]_AXI/C0_DDR_LOW0] set sys_mem_clk_index [expr [get_property CONFIG.NUM_CLKS [get_bd_cells axi_noc_0]]-1] } set i_str "S$m_interconnect_index" if {$m_interconnect_index < 10} { set i_str "S0$m_interconnect_index" } set m_interconnect_index [expr $m_interconnect_index + 1] set p_intf_name [lrange [split $p_name_int "/"] end end] set p_cell_name [lrange [split $p_name_int "/"] 0 0] set p_intf_clock [get_bd_pins -filter "TYPE == clk && (CONFIG.ASSOCIATED_BUSIF == ${p_intf_name} || \ CONFIG.ASSOCIATED_BUSIF =~ ${p_intf_name}:* || CONFIG.ASSOCIATED_BUSIF =~ *:${p_intf_name} || \ CONFIG.ASSOCIATED_BUSIF =~ *:${p_intf_name}:*)" -quiet -of_objects [get_bd_cells $p_cell_name]] if {[find_bd_objs -quiet -relation connected_to $p_intf_clock] ne "" || $p_intf_clock eq $p_clk_source} { set p_intf_clock "" } regsub clk $p_clk resetn p_rst if {[get_bd_nets -quiet $p_rst] eq ""} { set p_rst sys_cpu_resetn } if {$m_interconnect_index == 0} { set_property CONFIG.NUM_MI 1 $m_interconnect_cell set_property CONFIG.NUM_SI 1 $m_interconnect_cell ad_connect $p_rst $m_interconnect_cell/ARESETN ad_connect $p_clk $m_interconnect_cell/ACLK ad_connect $m_interconnect_cell/M00_AXI $p_name_int if {$p_intf_clock ne ""} { ad_connect $p_clk $p_intf_clock } } else { set_property CONFIG.NUM_SI $m_interconnect_index $m_interconnect_cell set clk_index [lsearch [get_bd_nets -of_object [get_bd_pins $m_interconnect_cell/ACLK*]] [get_bd_nets $p_clk]] if { $clk_index == -1 } { incr sys_mem_clk_index set_property CONFIG.NUM_CLKS [expr $sys_mem_clk_index +1] $m_interconnect_cell ad_connect $p_clk $m_interconnect_cell/ACLK$sys_mem_clk_index set asocc_clk_pin $m_interconnect_cell/ACLK$sys_mem_clk_index } else { set asocc_clk_pin [lindex [get_bd_pins $m_interconnect_cell/ACLK*] $clk_index] } ad_connect $m_interconnect_cell/${i_str}_AXI $p_name_int if {$p_intf_clock ne ""} { ad_connect $p_clk $p_intf_clock } if {$p_sel eq "NOC"} { set_property -dict [list CONFIG.CONNECTIONS {MC_0 { read_bw {1720} write_bw {1720} read_avg_burst {4} write_avg_burst {4}} }] [get_bd_intf_pins /axi_noc_0/${i_str}_AXI] # Add the new bus as associated to the clock pin, append new if other exists set clk_asoc_port [get_property CONFIG.ASSOCIATED_BUSIF [get_bd_pins $asocc_clk_pin]] if {$clk_asoc_port != {}} { set clk_asoc_port ${clk_asoc_port}: } set_property -dict [list CONFIG.ASSOCIATED_BUSIF ${clk_asoc_port}${i_str}_AXI] [get_bd_pins $asocc_clk_pin] } set mem_mapped "" if {$p_sel eq "MEM"} { # Search a DDR segment that is at least 16MB set mem_mapped [get_bd_addr_segs -of [get_bd_addr_spaces -of [get_bd_intf_pins -filter {NAME=~ *DLMB*} -of [get_bd_cells /sys_mb]]] -regexp -filter {NAME=~ ".*ddr.*" && RANGE=~".*0{6}$"}] } if {$p_sel eq "SIM"} { set mem_mapped [get_bd_addr_segs -of [get_bd_addr_spaces -of [get_bd_intf_pins -filter {NAME=~ *M_AXI*} -of [get_bd_cells /mng_axi_vip]]] -filter {NAME=~ *DDR* || NAME=~ *ddr*}] } if {$mem_mapped eq ""} { assign_bd_address $m_addr_seg } else { assign_bd_address -offset [get_property OFFSET $mem_mapped] \ -range [get_property RANGE $mem_mapped] $m_addr_seg } } if {$p_sel eq "SIM"} {set sys_mem_interconnect_index $m_interconnect_index} if {$p_sel eq "MEM"} {set sys_mem_interconnect_index $m_interconnect_index} if {$p_sel eq "HP0"} {set sys_hp0_interconnect_index $m_interconnect_index} if {$p_sel eq "HP1"} {set sys_hp1_interconnect_index $m_interconnect_index} if {$p_sel eq "HP2"} {set sys_hp2_interconnect_index $m_interconnect_index} if {$p_sel eq "HP3"} {set sys_hp3_interconnect_index $m_interconnect_index} } ## Create an AXI4 Lite memory mapped interface connection for register maps, # instantiates an interconnect and reconfigure it at every process call. # # \param[p_address] - address offset of the IP register map # \param[p_name] - name of the IP # \param[p_intf_name] - name of the AXI MM Slave interface (optional) # proc ad_cpu_interconnect {p_address p_name {p_intf_name {}}} { global sys_zynq global sys_cpu_interconnect_index set i_str "M$sys_cpu_interconnect_index" if {$sys_cpu_interconnect_index < 10} { set i_str "M0$sys_cpu_interconnect_index" } set use_smart_connect 1 # SmartConnect has higher resource utilization and worse timing closure on older families if {$sys_zynq == 1} { set use_smart_connect 0 } if {$sys_cpu_interconnect_index == 0} { if {$use_smart_connect == 1} { ad_ip_instance smartconnect axi_cpu_interconnect [ list \ NUM_MI 1 \ NUM_SI 1 \ ] ad_connect sys_cpu_clk axi_cpu_interconnect/aclk ad_connect sys_cpu_resetn axi_cpu_interconnect/aresetn } else { ad_ip_instance axi_interconnect axi_cpu_interconnect ad_connect sys_cpu_clk axi_cpu_interconnect/ACLK ad_connect sys_cpu_clk axi_cpu_interconnect/S00_ACLK ad_connect sys_cpu_resetn axi_cpu_interconnect/ARESETN ad_connect sys_cpu_resetn axi_cpu_interconnect/S00_ARESETN } if {$sys_zynq == 3} { ad_connect sys_cpu_clk sys_cips/m_axi_fpd_aclk ad_connect axi_cpu_interconnect/S00_AXI sys_cips/M_AXI_FPD } if {$sys_zynq == 2} { ad_connect sys_cpu_clk sys_ps8/maxihpm0_lpd_aclk ad_connect axi_cpu_interconnect/S00_AXI sys_ps8/M_AXI_HPM0_LPD } if {$sys_zynq == 1} { ad_connect sys_cpu_clk sys_ps7/M_AXI_GP0_ACLK ad_connect axi_cpu_interconnect/S00_AXI sys_ps7/M_AXI_GP0 } if {$sys_zynq == 0} { ad_connect axi_cpu_interconnect/S00_AXI sys_mb/M_AXI_DP } if {$sys_zynq == -1} { ad_connect axi_cpu_interconnect/S00_AXI mng_axi_vip/M_AXI } } if {$sys_zynq == 3} { set sys_addr_cntrl_space [get_bd_addr_spaces /sys_cips/M_AXI_FPD] } if {$sys_zynq == 2} { set sys_addr_cntrl_space [get_bd_addr_spaces sys_ps8/Data] } if {$sys_zynq == 1} { set sys_addr_cntrl_space [get_bd_addr_spaces sys_ps7/Data] } if {$sys_zynq == 0} { set sys_addr_cntrl_space [get_bd_addr_spaces sys_mb/Data] } if {$sys_zynq == -1} { set sys_addr_cntrl_space [get_bd_addr_spaces mng_axi_vip/Master_AXI] } set sys_cpu_interconnect_index [expr $sys_cpu_interconnect_index + 1] set p_cell [get_bd_cells $p_name] set p_intf [get_bd_intf_pins -filter \ "MODE == Slave && VLNV == xilinx.com:interface:aximm_rtl:1.0 && NAME =~ *$p_intf_name*"\ -of_objects $p_cell] set p_hier_cell $p_cell set p_hier_intf $p_intf while {$p_hier_intf != "" && [get_property TYPE $p_hier_cell] == "hier"} { set p_hier_intf [find_bd_objs -boundary_type lower \ -relation connected_to $p_hier_intf] if {$p_hier_intf != {}} { set p_hier_cell [get_bd_cells -of_objects $p_hier_intf] } else { set p_hier_cell {} } } set p_intf_clock "" set p_intf_reset "" if {$p_hier_cell != {}} { set p_intf_name [lrange [split $p_hier_intf "/"] end end] set p_intf_clock [get_bd_pins -filter "TYPE == clk && \ (CONFIG.ASSOCIATED_BUSIF == ${p_intf_name} || \ CONFIG.ASSOCIATED_BUSIF =~ ${p_intf_name}:* || \ CONFIG.ASSOCIATED_BUSIF =~ *:${p_intf_name} || \ CONFIG.ASSOCIATED_BUSIF =~ *:${p_intf_name}:*)" \ -quiet -of_objects $p_hier_cell] set p_intf_reset [get_bd_pins -filter "TYPE == rst && \ (CONFIG.ASSOCIATED_BUSIF == ${p_intf_name} || \ CONFIG.ASSOCIATED_BUSIF =~ ${p_intf_name}:* || CONFIG.ASSOCIATED_BUSIF =~ *:${p_intf_name} || \ CONFIG.ASSOCIATED_BUSIF =~ *:${p_intf_name}:*)" \ -quiet -of_objects $p_hier_cell] if {($p_intf_clock ne "") && ($p_intf_reset eq "")} { set p_intf_reset [get_property CONFIG.ASSOCIATED_RESET [get_bd_pins ${p_intf_clock}]] if {$p_intf_reset ne ""} { set p_intf_reset [get_bd_pins -filter "NAME == $p_intf_reset" -of_objects $p_hier_cell] } } # Trace back up set p_hier_cell2 $p_hier_cell while {$p_intf_clock != {} && $p_hier_cell2 != $p_cell && $p_hier_cell2 != {}} { puts $p_intf_clock puts $p_hier_cell2 set p_intf_clock [find_bd_objs -boundary_type upper \ -relation connected_to $p_intf_clock] if {$p_intf_clock != {}} { set p_intf_clock [get_bd_pins [get_property PATH $p_intf_clock]] set p_hier_cell2 [get_bd_cells -of_objects $p_intf_clock] } } set p_hier_cell2 $p_hier_cell while {$p_intf_reset != {} && $p_hier_cell2 != $p_cell && $p_hier_cell2 != {}} { set p_intf_reset [find_bd_objs -boundary_type upper \ -relation connected_to $p_intf_reset] if {$p_intf_reset != {}} { set p_intf_reset [get_bd_pins [get_property PATH $p_intf_reset]] set p_hier_cell2 [get_bd_cells -of_objects $p_intf_reset] } } } if {[find_bd_objs -quiet -relation connected_to $p_intf_clock] ne ""} { set p_intf_clock "" } if {$p_intf_reset ne ""} { if {[find_bd_objs -quiet -relation connected_to $p_intf_reset] ne ""} { set p_intf_reset "" } } set_property CONFIG.NUM_MI $sys_cpu_interconnect_index [get_bd_cells axi_cpu_interconnect] if {$use_smart_connect == 0} { ad_connect sys_cpu_clk axi_cpu_interconnect/${i_str}_ACLK ad_connect sys_cpu_resetn axi_cpu_interconnect/${i_str}_ARESETN } if {$p_intf_clock ne ""} { ad_connect sys_cpu_clk ${p_intf_clock} } if {$p_intf_reset ne ""} { ad_connect sys_cpu_resetn ${p_intf_reset} } ad_connect axi_cpu_interconnect/${i_str}_AXI ${p_intf} set p_seg [get_bd_addr_segs -of [get_bd_addr_spaces -of [get_bd_intf_pins -filter "NAME=~ *${p_intf_name}*" -of $p_hier_cell]]] set p_index 0 foreach p_seg_name $p_seg { if {$p_index == 0} { set p_seg_range [get_property range $p_seg_name] if {$p_seg_range < 0x1000} { set p_seg_range 0x1000 } if {$sys_zynq == 3} { if {($p_address >= 0x44000000) && ($p_address <= 0x4fffffff)} { # place axi peripherics in A400_0000-AFFF_FFFF range set p_address [expr ($p_address + 0x60000000)] } elseif {($p_address >= 0x70000000) && ($p_address <= 0x7fffffff)} { # place axi peripherics in B000_0000-BFFF_FFFF range set p_address [expr ($p_address + 0x40000000)] } else { error "ERROR: ad_cpu_interconnect : Cannot map ($p_address) to aperture, \ Addess out of range 0x4400_0000 - 0X4FFF_FFFF; 0x7000_0000 - 0X7FFF_FFFF !" } } if {$sys_zynq == 2} { if {($p_address >= 0x40000000) && ($p_address <= 0x4fffffff)} { set p_address [expr ($p_address + 0x40000000)] } if {($p_address >= 0x70000000) && ($p_address <= 0x7fffffff)} { set p_address [expr ($p_address + 0x20000000)] } } create_bd_addr_seg -range $p_seg_range \ -offset $p_address $sys_addr_cntrl_space \ $p_seg_name "SEG_data_${p_name}" } else { assign_bd_address $p_seg_name } incr p_index } } ## Connects an IP interrupt port to the system's interrupt controller interface. # # \param[p_ps_index] - interrupt index used in PSx based architecture # \param[p_mb_index] - interrupt index used in Microblaze based architecture # \param[p_name] - name of the interrupt port # proc ad_cpu_interrupt {p_ps_index p_mb_index p_name} { global sys_zynq if {$sys_zynq <= 0} {set p_index_int $p_mb_index} if {$sys_zynq >= 1} {set p_index_int $p_ps_index} set p_index [regsub -all {[^0-9]} $p_index_int ""] set m_index [expr ($p_index - 8)] if {$sys_zynq == 3} { if {$p_index < 0 || $p_index > 15} { error "ERROR: ad_cpu_interrupt : Interrupt index ($p_index) out of range 0-15 " } ad_connect $p_name sys_cips/pl_ps_irq$p_index } if {($sys_zynq == 2) && ($p_index <= 7)} { set p_net [get_bd_nets -of_objects [get_bd_pins sys_concat_intc_0/In$p_index]] set p_pin [get_bd_pins sys_concat_intc_0/In$p_index] puts "disconnect_bd_net $p_net $p_pin" disconnect_bd_net $p_net $p_pin ad_connect sys_concat_intc_0/In$p_index $p_name } if {($sys_zynq == 2) && ($p_index >= 8)} { set p_net [get_bd_nets -of_objects [get_bd_pins sys_concat_intc_1/In$m_index]] set p_pin [get_bd_pins sys_concat_intc_1/In$m_index] puts "disconnect_bd_net $p_net $p_pin" disconnect_bd_net $p_net $p_pin ad_connect sys_concat_intc_1/In$m_index $p_name } if {$sys_zynq <= 1} { set p_net [get_bd_nets -of_objects [get_bd_pins sys_concat_intc/In$p_index]] set p_pin [get_bd_pins sys_concat_intc/In$p_index] puts "disconnect_bd_net $p_net $p_pin" disconnect_bd_net $p_net $p_pin ad_connect sys_concat_intc/In$p_index $p_name } }