pluto_hdl_adi/library/scripts/adi_intel_device_info_enc.tcl

## ***************************************************************************
## ***************************************************************************
## Copyright 2014 - 2018 (c) Analog Devices, Inc. All rights reserved.
##
## In this HDL repository, there are many different and unique modules, consisting
## of various HDL (Verilog or VHDL) components. The individual modules are
## developed independently, and may be accompanied by separate and unique license
## terms.
##
## The user should read each of these license terms, and understand the
## freedoms and responsibilities that he or she has by using this source/core.
##
## This core is distributed in the hope that it will be useful, but WITHOUT ANY
## WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
## A PARTICULAR PURPOSE.
##
## Redistribution and use of source or resulting binaries, with or without modification
## of this file, are permitted under one of the following two license terms:
##
##   1. The GNU General Public License version 2 as published by the
##      Free Software Foundation, which can be found in the top level directory
##      of this repository (LICENSE_GPL2), and also online at:
##      <https://www.gnu.org/licenses/old-licenses/gpl-2.0.html>
##
## OR
##
##   2. An ADI specific BSD license, which can be found in the top level directory
##      of this repository (LICENSE_ADIBSD), and also on-line at:
##      https://github.com/analogdevicesinc/hdl/blob/master/LICENSE_ADIBSD
##      This will allow to generate bit files and not release the source code,
##      as long as it attaches to an ADI device.
##
## ***************************************************************************
## ***************************************************************************

# adi_intel_device_info_enc.tcl

# The main rule when adding a new parameter is to have the same names for the parameter
# and it's list (valid range type or supported entity and its encoded value type)

variable auto_set_param_list
variable fpga_technology_list
variable fpga_technology
variable fpga_family_list
variable fpga_family
variable speed_grade_list
variable speed_grade
variable dev_package_list
variable dev_package
variable xcvr_type_list
variable xcvr_type
variable fpga_voltage_list
variable fpga_voltage

# Parameter list for automatic assignament(generation)
set auto_gen_param_list { \
          FPGA_TECHNOLOGY \
          FPGA_FAMILY \
          SPEED_GRADE \
          DEV_PACKAGE}

set auto_set_param_list { \
          FPGA_VOLTAGE \
          XCVR_TYPE}


# List for automatically assigned parameter values and encoded values
# The list name must be the parameter name (lowercase), appending "_list" to it
set fpga_technology_list { \
        { Unknown      100 } \
        { "Cyclone V"  101 } \
        { "Cyclone 10" 102 } \
        { "Arria 10"   103 } \
        { "Stratix 10" 104 }}

set fpga_family_list { \
        { Unknown   0 } \
        { SX        1 } \
        { GX        2 } \
        { GT        3 } \
        { GZ        4 } \
        { "SE Base" 5 }}

       #technology 5 generation
       # family Arria SX

set speed_grade_list { \
        { Unknown   0 } \
        { 1         1 } \
        { 2         2 } \
        { 3         3 } \
        { 4         4 } \
        { 5         5 } \
        { 6         6 } \
        { 7         7 } \
        { 8         8 }}

set dev_package_list { \
        { Unknown   0 } \
        { BGA       1 } \
        { PGA       2 } \
        { FBGA      3 } \
        { HBGA      4 } \
        { PDIP      5 } \
        { EQFP      6 } \
        { PLCC      7 } \
        { PQFP      8 } \
        { RQFP      9 } \
        { TQFP     10 } \
        { UBGA     11 } \
        { UFBGA    12 } \
        { MBGA     13 }}

# Ball-Grid Array (BGA)
# Ceramic Pin-Grid Array (PGA)
# FineLine BGA (FBGA)
# Hybrid FineLine BGA (HBGA)
# Plastic Dual In-Line Package (PDIP)
# Plastic Enhanced Quad Flat Pack (EQFP)
# Plastic J-Lead Chip Carrier (PLCC)
# Plastic Quad Flat Pack (PQFP)
# Power Quad Flat Pack (RQFP)
# Thin Quad Flat Pack (TQFP)
# Ultra FineLine BGA (UBGA-UFBGA)

# transceiver speedgrade
set xcvr_type_list { 0 9 }

set fpga_voltage_list { 0 5000 } ;# min 0mV max 5V

################################################################################

proc get_part_param {} {

    global fpga_technology
    global fpga_family
    global speed_grade
    global dev_package
    global xcvr_type
    global fpga_voltage

    set device [get_parameter_value DEVICE]

    # user and system values (sys_val)
    if {[catch {set fpga_technology [quartus::device::get_part_info -family $device]} fid]} {
      set fpga_technology "Unknown"
    }
    if {[catch {set fpga_family [quartus::device::get_part_info -family_variant $device]} fid]} {
      set fpga_family "Unknown"
    }
    if {[catch {set speed_grade [quartus::device::get_part_info -speed_grade $device]} fid]} {
      set speed_grade "Unknown"
    }
    if {[catch {set dev_package [quartus::device::get_part_info -package $device]} fid]} {
      set dev_package "Unknown"
    }
    if {[catch {set xcvr_type [quartus::device::get_part_info -hssi_speed_grade $device]} fid]} {
      set xcvr_type "Unknown"
    }
    if {[catch {set fpga_voltage [quartus::device::get_part_info -default_voltage $device]} fid]} {
      set fpga_voltage "0"
    }

    # user and system values (sys_val)
    regsub {V} $fpga_voltage "" fpga_voltage
    set fpga_voltage [expr int([expr $fpga_voltage * 1000])] ;# // V to mV conversion(integer val)

}

## ***************************************************************************
## ***************************************************************************
library/scripts: Add auto dev spec parameters Xilinx: When calling adi_auto_fpga_spec_params in the x_ip.tcl, parameters like - FPGA_TECHNOLOGY - FPGA_FAMILY - SPEED_GRADE - DEV_PACKAGE - XCVR_TYPE - FPGA_VOLTAGE will be automatically detected and constrained to predefined pairs of values from adi_xilinx_device_info_env.tcl The parameters specified in the blobk diagram of the IP(bd.tcl), will be automatically assign when the IP is added to a block design. The "adi_auto_assign_device_spec $cellpath" is called in the init hook (bd.tcl). https://www.xilinx.com/products/technology/high-speed-serial.html Intel: Info parameters are set in the VALIDATION_CALLBACK according to adi_intel_device_info_env.tcl 2019-01-11 08:32:55 +00:00			`## ***************************************************************************`
			`## ***************************************************************************`
			`## Copyright 2014 - 2018 (c) Analog Devices, Inc. All rights reserved.`
			`##`
			`## In this HDL repository, there are many different and unique modules, consisting`
			`## of various HDL (Verilog or VHDL) components. The individual modules are`
			`## developed independently, and may be accompanied by separate and unique license`
			`## terms.`
			`##`
			`## The user should read each of these license terms, and understand the`
			`## freedoms and responsibilities that he or she has by using this source/core.`
			`##`
			`## This core is distributed in the hope that it will be useful, but WITHOUT ANY`
			`## WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR`
			`## A PARTICULAR PURPOSE.`
			`##`
			`## Redistribution and use of source or resulting binaries, with or without modification`
			`## of this file, are permitted under one of the following two license terms:`
			`##`
			`## 1. The GNU General Public License version 2 as published by the`
			`## Free Software Foundation, which can be found in the top level directory`
			`## of this repository (LICENSE_GPL2), and also online at:`
			`## <https://www.gnu.org/licenses/old-licenses/gpl-2.0.html>`
			`##`
			`## OR`
			`##`
			`## 2. An ADI specific BSD license, which can be found in the top level directory`
			`## of this repository (LICENSE_ADIBSD), and also on-line at:`
			`## https://github.com/analogdevicesinc/hdl/blob/master/LICENSE_ADIBSD`
			`## This will allow to generate bit files and not release the source code,`
			`## as long as it attaches to an ADI device.`
			`##`
			`## ***************************************************************************`
			`## ***************************************************************************`

			`# adi_intel_device_info_enc.tcl`

			`# The main rule when adding a new parameter is to have the same names for the parameter`
			`# and it's list (valid range type or supported entity and its encoded value type)`

			`variable auto_set_param_list`
			`variable fpga_technology_list`
			`variable fpga_technology`
			`variable fpga_family_list`
			`variable fpga_family`
			`variable speed_grade_list`
			`variable speed_grade`
			`variable dev_package_list`
			`variable dev_package`
			`variable xcvr_type_list`
			`variable xcvr_type`
			`variable fpga_voltage_list`
			`variable fpga_voltage`

			`# Parameter list for automatic assignament(generation)`
			`set auto_gen_param_list { \`
			`FPGA_TECHNOLOGY \`
			`FPGA_FAMILY \`
			`SPEED_GRADE \`
			`DEV_PACKAGE}`

			`set auto_set_param_list { \`
			`FPGA_VOLTAGE \`
			`XCVR_TYPE}`


			`# List for automatically assigned parameter values and encoded values`
			`# The list name must be the parameter name (lowercase), appending "_list" to it`
			`set fpga_technology_list { \`
			`{ Unknown 100 } \`
			`{ "Cyclone V" 101 } \`
			`{ "Cyclone 10" 102 } \`
			`{ "Arria 10" 103 } \`
			`{ "Stratix 10" 104 }}`

			`set fpga_family_list { \`
			`{ Unknown 0 } \`
			`{ SX 1 } \`
			`{ GX 2 } \`
			`{ GT 3 } \`
Add 'SE Base' family to the supported FPGAs 2020-06-02 18:44:09 +00:00			`{ GZ 4 } \`
			`{ "SE Base" 5 }}`
library/scripts: Add auto dev spec parameters Xilinx: When calling adi_auto_fpga_spec_params in the x_ip.tcl, parameters like - FPGA_TECHNOLOGY - FPGA_FAMILY - SPEED_GRADE - DEV_PACKAGE - XCVR_TYPE - FPGA_VOLTAGE will be automatically detected and constrained to predefined pairs of values from adi_xilinx_device_info_env.tcl The parameters specified in the blobk diagram of the IP(bd.tcl), will be automatically assign when the IP is added to a block design. The "adi_auto_assign_device_spec $cellpath" is called in the init hook (bd.tcl). https://www.xilinx.com/products/technology/high-speed-serial.html Intel: Info parameters are set in the VALIDATION_CALLBACK according to adi_intel_device_info_env.tcl 2019-01-11 08:32:55 +00:00
			`#technology 5 generation`
			`# family Arria SX`

			`set speed_grade_list { \`
			`{ Unknown 0 } \`
			`{ 1 1 } \`
			`{ 2 2 } \`
			`{ 3 3 } \`
			`{ 4 4 } \`
			`{ 5 5 } \`
			`{ 6 6 } \`
			`{ 7 7 } \`
			`{ 8 8 }}`

			`set dev_package_list { \`
			`{ Unknown 0 } \`
adi_intel_device_info_enc.tcl: Add all known intel supported packages 2019-02-28 12:12:56 +00:00			`{ BGA 1 } \`
			`{ PGA 2 } \`
			`{ FBGA 3 } \`
			`{ HBGA 4 } \`
			`{ PDIP 5 } \`
			`{ EQFP 6 } \`
			`{ PLCC 7 } \`
			`{ PQFP 8 } \`
			`{ RQFP 9 } \`
			`{ TQFP 10 } \`
			`{ UBGA 11 } \`
adi_intel_device_info_enc.tcl: Fix typo 2020-08-10 11:23:26 +00:00			`{ UFBGA 12 } \`
			`{ MBGA 13 }}`
adi_intel_device_info_enc.tcl: Add all known intel supported packages 2019-02-28 12:12:56 +00:00
			`# Ball-Grid Array (BGA)`
			`# Ceramic Pin-Grid Array (PGA)`
			`# FineLine BGA (FBGA)`
			`# Hybrid FineLine BGA (HBGA)`
			`# Plastic Dual In-Line Package (PDIP)`
			`# Plastic Enhanced Quad Flat Pack (EQFP)`
			`# Plastic J-Lead Chip Carrier (PLCC)`
			`# Plastic Quad Flat Pack (PQFP)`
			`# Power Quad Flat Pack (RQFP)`
			`# Thin Quad Flat Pack (TQFP)`
			`# Ultra FineLine BGA (UBGA-UFBGA)`
library/scripts: Add auto dev spec parameters Xilinx: When calling adi_auto_fpga_spec_params in the x_ip.tcl, parameters like - FPGA_TECHNOLOGY - FPGA_FAMILY - SPEED_GRADE - DEV_PACKAGE - XCVR_TYPE - FPGA_VOLTAGE will be automatically detected and constrained to predefined pairs of values from adi_xilinx_device_info_env.tcl The parameters specified in the blobk diagram of the IP(bd.tcl), will be automatically assign when the IP is added to a block design. The "adi_auto_assign_device_spec $cellpath" is called in the init hook (bd.tcl). https://www.xilinx.com/products/technology/high-speed-serial.html Intel: Info parameters are set in the VALIDATION_CALLBACK according to adi_intel_device_info_env.tcl 2019-01-11 08:32:55 +00:00
			`# transceiver speedgrade`
			`set xcvr_type_list { 0 9 }`

			`set fpga_voltage_list { 0 5000 } ;# min 0mV max 5V`

			`################################################################################`

			`proc get_part_param {} {`

			`global fpga_technology`
			`global fpga_family`
			`global speed_grade`
			`global dev_package`
			`global xcvr_type`
			`global fpga_voltage`

			`set device [get_parameter_value DEVICE]`

			`# user and system values (sys_val)`
			`if {[catch {set fpga_technology [quartus::device::get_part_info -family $device]} fid]} {`
			`set fpga_technology "Unknown"`
			`}`
			`if {[catch {set fpga_family [quartus::device::get_part_info -family_variant $device]} fid]} {`
			`set fpga_family "Unknown"`
			`}`
			`if {[catch {set speed_grade [quartus::device::get_part_info -speed_grade $device]} fid]} {`
			`set speed_grade "Unknown"`
			`}`
			`if {[catch {set dev_package [quartus::device::get_part_info -package $device]} fid]} {`
			`set dev_package "Unknown"`
			`}`
			`if {[catch {set xcvr_type [quartus::device::get_part_info -hssi_speed_grade $device]} fid]} {`
			`set xcvr_type "Unknown"`
			`}`
			`if {[catch {set fpga_voltage [quartus::device::get_part_info -default_voltage $device]} fid]} {`
			`set fpga_voltage "0"`
			`}`

			`# user and system values (sys_val)`
			`regsub {V} $fpga_voltage "" fpga_voltage`
			`set fpga_voltage [expr int([expr $fpga_voltage * 1000])] ;# // V to mV conversion(integer val)`

			`}`

			`## ***************************************************************************`
			`## ***************************************************************************`