hw/ip/clkmgr/data/clkmgr.hjson.tpl - 3p/lowrisc/opentitan - Git at Google

 // Copyright lowRISC contributors.
 // Licensed under the Apache License, Version 2.0, see LICENSE for details.
 // SPDX-License-Identifier: Apache-2.0

 # CLKMGR register template
 #
 {
   name: "CLKMGR",
   scan: "true",
   clocking: [
     {clock: "clk_i", reset: "rst_ni", primary: true},
 % for src in clocks.srcs.values():
     {clock: "clk_${src.name}_i", reset: "rst_${src.name}_ni"},
 % endfor
 % for src in clocks.derived_srcs.values():
     {clock: "clk_${src.name}_i", reset: "rst_${src.name}_ni", internal: true},
 % endfor
 % for src in clocks.all_derived_srcs():
     {reset: "rst_por_${src}_ni"},
 % endfor
   ]
   bus_interfaces: [
     { protocol: "tlul", direction: "device" }
   ],
   alert_list: [
     { name: "recov_fault",
       desc: '''
       This recoverable alert is triggered when there are measurement errors.
       '''
     }
     { name: "fatal_fault",
       desc: '''
       This fatal alert is triggered when a fatal TL-UL bus integrity fault is detected.
       '''
     }
   ],
   regwidth: "32",
   param_list: [
     { name: "NumGroups",
       desc: "Number of clock groups",
       type: "int",
       default: "${len(clocks.groups)}",
       local: "true"
     },
     { name: "NumSwGateableClocks",
       desc: "Number of SW gateable clocks",
       type: "int",
       default: "${len(typed_clocks.sw_clks)}",
       local: "true"
     },
     { name: "NumHintableClocks",
       desc: "Number of hintable clocks",
       type: "int",
       default: "${len(hint_names)}",
       local: "true"
     },
   ],

   inter_signal_list: [
     { struct:  "clkmgr_out",
       type:    "uni",
       name:    "clocks",
       act:     "req",
       package: "clkmgr_pkg",
     },

     { struct:  "clkmgr_cg_en",
       type:    "uni",
       name:    "cg_en",
       act:     "req",
       package: "clkmgr_pkg",
     },

     { struct:  "lc_tx",
       type:    "uni",
       name:    "lc_hw_debug_en",
       act:     "rcv",
       package: "lc_ctrl_pkg",
     },

     { struct:  "mubi4",
       type:    "uni",
       name:    "io_clk_byp_req",
       act:     "req",
       package: "prim_mubi_pkg",
     },

     { struct:  "mubi4",
       type:    "uni",
       name:    "io_clk_byp_ack",
       act:     "rcv",
       package: "prim_mubi_pkg",
     },

     { struct:  "mubi4",
       type:    "uni",
       name:    "all_clk_byp_req",
       act:     "req",
       package: "prim_mubi_pkg",
     },

     { struct:  "mubi4",
       type:    "uni",
       name:    "all_clk_byp_ack",
       act:     "rcv",
       package: "prim_mubi_pkg",
     },

     { struct:  "mubi4",
       type:    "uni",
       name:    "hi_speed_sel",
       act:     "req",
       package: "prim_mubi_pkg",
     },

     { struct:  "mubi4",
       type:    "uni",
       name:    "div_step_down_req",
       act:     "rcv",
       package: "prim_mubi_pkg",
     },

     { struct:  "lc_tx",
       type:    "uni",
       name:    "lc_clk_byp_req",
       act:     "rcv",
       package: "lc_ctrl_pkg",
     },

     { struct:  "lc_tx",
       type:    "uni",
       name:    "lc_clk_byp_ack",
       act:     "req",
       package: "lc_ctrl_pkg",
     },

     { struct:  "mubi4",
       type:    "uni",
       name:    "jitter_en",
       act:     "req",
       package: "prim_mubi_pkg"
     },

   // Exported clocks
 % for intf in cfg['exported_clks']:
     { struct:  "clkmgr_${intf}_out",
       type:    "uni",
       name:    "clocks_${intf}",
       act:     "req",
       package: "clkmgr_pkg",
     },
 % endfor

     { struct:  "pwr_clk",
       type:    "req_rsp",
       name:    "pwr",
       act:     "rsp",
     },

     { struct:  "mubi4",
       type:    "uni",
       name:    "idle",
       act:     "rcv",
       package: "prim_mubi_pkg",
       width:   "${len(hint_names)}"
     },

     { struct:  "logic",
       desc:    "Indicates clocks are calibrated and frequencies accurate",
       type:    "uni",
       name:    "calib_rdy",
       act:     "rcv",
       package: "",
       width:   "1"
     },
   ],

   countermeasures: [
     { name: "BUS.INTEGRITY",
       desc: "End-to-end bus integrity scheme."
     },
     { name: "TIMEOUT.CLK.BKGN_CHK",
       desc: "Background check for clock timeout."
     },
     { name: "MEAS.CLK.BKGN_CHK",
       desc: "Background check for clock frequency."
     },
     { name: "MEAS.CONFIG.SHADOW",
       desc: "Measurement configurations are shadowed."
     }
     { name: "IDLE.INTERSIG.MUBI",
       desc: "Idle inputs are multibit encoded."
     }
     { name: "LC_CTRL.INTERSIG.MUBI",
       desc: "The life cycle control signals are multibit encoded."
     }
     { name: "LC_CTRL_CLK_HANDSHAKE.INTERSIG.MUBI",
       desc: "The life cycle clock req/ack signals are multibit encoded."
     }
     { name: "CLK_HANDSHAKE.INTERSIG.MUBI",
       desc: "The external clock req/ack signals are multibit encoded."
     }
     { name: "DIV.INTERSIG.MUBI",
       desc: "Divider step down request is multibit encoded."
     }
     { name: "JITTER.CONFIG.MUBI",
       desc: "The jitter enable configuration is multibit encoded."
     }
     { name: "IDLE.CTR.REDUN",
       desc: "Idle counter is duplicated."
     }
     { name: "MEAS.CONFIG.REGWEN",
       desc: "The measurement controls protected with regwen."
     }
     { name: "CLK_CTRL.CONFIG.REGWEN",
       desc: "Software controlled clock requests are proteced with regwen."
     }

   ]

   registers: [
     { name: "EXTCLK_CTRL_REGWEN",
       desc: "External clock control write enable",
       swaccess: "rw0c",
       hwaccess: "none",
       fields: [
         { bits: "0",
           name: "EN",
           resval: "1"
           desc: '''
             When 1, the value of !!EXTCLK_CTRL can be set.  When 0, writes to !!EXTCLK_CTRL have no
             effect.
           '''
         },
       ]
     },

     { name: "EXTCLK_CTRL",
       desc: '''
         Select external clock
       ''',
       regwen: "EXTCLK_CTRL_REGWEN",
       swaccess: "rw",
       hwaccess: "hro",
       fields: [
         {
           bits: "3:0",
           name: "SEL",
           mubi: true,
           desc: '''
             When the current value is not kMultiBitBool4True, writing a value of kMultiBitBool4True
             selects external clock as clock for the system.  Writing any other value has
             no impact.

             When the current value is kMultiBitBool4True, writing a value of kMultiBitBool4False
             selects internal clock as clock for the system. Writing any other value during this stage
             has no impact.

             While this register can always be programmed, it only takes effect when debug functions are enabled
             in life cycle TEST, DEV or RMA states.
           '''
           resval: "false"
         },
         {
           bits: "7:4",
           name: "HI_SPEED_SEL",
           mubi: true,
           desc: '''
             A value of kMultiBitBool4True selects nominal speed external clock.
             All other values selects low speed clocks.

             Note this field only has an effect when the !!EXTCLK_CTRL.SEL field is set to
             kMultiBitBool4True.

             Nominal speed means the external clock is approximately the same frequency as
             the internal oscillator source.  When this option is used, all clocks operate
             at roughly the nominal frequency.

             Low speed means the external clock is approximately half the frequency of the
             internal oscillator source. When this option is used, the internal dividers are
             stepped down.  As a result, previously undivided clocks now run at half frequency,
             while previously divided clocks run at roughly the nominal frequency.

             See external clock switch support in documentation for more details.
           '''
           resval: false
         }
       ]
       // avoid writing random values to this register as it could trigger transient checks
       // in mubi sync
       tags: ["excl:CsrAllTests:CsrExclWrite"]
     },

     { name: "EXTCLK_STATUS",
       desc: '''
         Status of requested external clock switch
       ''',
       swaccess: "ro",
       hwaccess: "hwo",
       hwext: "true",
       fields: [
         {
           bits: "3:0",
           name: "ACK",
           mubi: true,
           desc: '''
             When !!EXTCLK_CTRL.SEL is set to kMultiBitBool4True, this field reflects
             whether the clock has been switched the external source.

             kMultiBitBool4True indicates the switch is complete.
             kMultiBitBool4False indicates the switch is either not possible or still ongoing.
           '''
           resval: "false"
         },
       ]
     },

     { name: "JITTER_REGWEN",
       desc: "Jitter write enable",
       swaccess: "rw0c",
       hwaccess: "none",
       fields: [
         { bits: "0",
           name: "EN",
           resval: "1"
           desc: '''
             When 1, the value of !!JITTER_ENABLE can be changed.  When 0, writes have no
             effect.
           '''
         },
       ]
     },

     { name: "JITTER_ENABLE",
       desc: '''
         Enable jittery clock
       ''',
       swaccess: "rw",
       hwaccess: "hro",
       fields: [
         {
           mubi: true,
           bits: "3:0",
           name: "VAL",
           desc: '''
             Enable jittery clock.
             A value of kMultiBitBool4False disables the jittery clock,
             while all other values enable jittery clock.
           ''',
           resval: false
           // avoid writing random values to this register as it could trigger transient checks
           // in mubi sync
           tags: ["excl:CsrAllTests:CsrExclWrite"]
         }
       ]
     },

     { name: "CLK_ENABLES",
       desc: '''
         Clock enable for software gateable clocks.
         These clocks are directly controlled by software.
       ''',
       swaccess: "rw",
       hwaccess: "hro",
       fields: [
 % for clk in typed_clocks.sw_clks:
         {
           bits: "${loop.index}",
           name: "${clk.upper()}_EN",
           resval: 1,
           desc: '''
             0 ${clk.upper()} is disabled.
             1 ${clk.upper()} is enabled.
           '''
         }
 % endfor
       ]
       // the CLK_ENABLE register cannot be written.
       // During top level randomized tests, it is possible to disable the clocks and then access
       // a register in the disabled block.  This would lead to a top level hang.
       tags: ["excl:CsrAllTests:CsrExclAll"]
     },

     { name: "CLK_HINTS",
       desc: '''
         Clock hint for software gateable transactional clocks during active mode.
         During low power mode, all clocks are gated off regardless of the software hint.

         Transactional clocks are not fully controlled by software.  Instead software provides only a disable hint.

         When software provides a disable hint, the clock manager checks to see if the associated hardware block is idle.
         If the hardware block is idle, then the clock is disabled.
         If the hardware block is not idle, the clock is kept on.

         For the enable case, the software hint is immediately honored and the clock turned on.  Hardware does not provide any
         feedback in this case.
       ''',
       swaccess: "rw",
       hwaccess: "hro",
       fields: [
 % for clk in hint_names.keys():
         {
           bits: "${loop.index}",
           name: "${clk.upper()}_HINT",
           resval: 1,
           desc: '''
             0 ${clk.upper()} can be disabled.
             1 ${clk.upper()} is enabled.
           '''
         }
 % endfor
       ]
       // the CLK_HINT register cannot be written.
       // During top level randomized tests, it is possible to disable the clocks to transactional blocks
       // and then access a register in the disabled block.  This would lead to a top level hang.
       tags: ["excl:CsrAllTests:CsrExclAll"]
     },

     { name: "CLK_HINTS_STATUS",
       desc: '''
         Since the final state of !!CLK_HINTS is not always determined by software,
         this register provides read feedback for the current clock state.

       ''',
       swaccess: "ro",
       hwaccess: "hwo",
       fields: [
 % for clk in hint_names.keys():
         {
           bits: "${loop.index}",
           name: "${clk.upper()}_VAL",
           resval: 1,
           desc: '''
             0 ${clk.upper()} is disabled.
             1 ${clk.upper()} is enabled.
           '''
         }
 % endfor
       ]
     },

     { name: "MEASURE_CTRL_REGWEN",
       desc: "Measurement control write enable",
       swaccess: "rw0c",
       hwaccess: "hrw",
       fields: [
         { bits: "0",
           name: "EN",
           resval: "1"
           desc: '''
             When 1, the value of the measurement control can be set.  When 0, writes have no
             effect.
           '''
         },
       ]
     },
 <% aon_freq = clocks.all_srcs['aon'].freq %>\
 % for src in typed_clocks.rg_srcs:
     { name: "${src.upper()}_MEAS_CTRL_EN",
       desc: '''
         Enable for measurement control
       ''',
       regwen: "MEASURE_CTRL_REGWEN",
       swaccess: "rw",
       hwaccess: "hrw",
       async: "clk_${src}_i",
       fields: [
         {
           bits: "3:0",
           name: "EN",
           desc: "Enable measurement for ${src}",
           mubi: true,
           resval: false,
         },
       ]
       // Measurements can cause recoverable errors depending on the
       // thresholds which randomized CSR tests will not predict correctly.
       // To provide better CSR coverage we allow writing the threshold
       // fields, but not enabling the counters.
       tags: ["excl:CsrAllTests:CsrExclWrite"]
     },
 <%
   freq = clocks.all_srcs[src].freq
   ratio = int(freq / aon_freq)
   # Add extra bit to width for margin
   width = ratio.bit_length() + 1
   max_msb = width - 1
   min_msb = (max_msb + 1) + width - 1
 %>
     { name: "${src.upper()}_MEAS_CTRL_SHADOWED",
       desc: '''
         Configuration controls for ${src} measurement.

         The threshold fields are made wider than required (by 1 bit) to ensure
         there is room to adjust for measurement inaccuracies.
       ''',
       regwen: "MEASURE_CTRL_REGWEN",
       swaccess: "rw",
       hwaccess: "hro",
       async: "clk_${src}_i",
       shadowed: "true",
       update_err_alert: "recov_fault",
       storage_err_alert: "fatal_fault",
       fields: [
         {
           bits: "${max_msb}:0",
           name: "HI",
           desc: "Max threshold for ${src} measurement",
           resval: "${ratio + 10}"
         },

         {
           bits: "${min_msb}:${max_msb+1}",
           name: "LO",
           desc: "Min threshold for ${src} measurement",
           resval: "${ratio - 10}"
         },
       ]
     },
 % endfor

     { name: "RECOV_ERR_CODE",
       desc: "Recoverable Error code ",
       swaccess: "rw1c",
       hwaccess: "hwo",
       fields: [
         { bits: "0",
           name: "SHADOW_UPDATE_ERR",
           resval: 0
           desc: '''
             One of the shadow registers encountered an update error.
           '''
         },
 % for src in typed_clocks.rg_srcs:
         {
           bits: "${loop.index+1}",
           name: "${src.upper()}_MEASURE_ERR",
           resval: 0,
           desc: '''
             ${src} has encountered a measurement error.
           '''
         },
 % endfor
 % for src in typed_clocks.rg_srcs:
         {
           bits: "${loop.index + len(typed_clocks.rg_srcs)+1}",
           name: "${src.upper()}_TIMEOUT_ERR",
           resval: 0,
           desc: '''
             ${src} has timed out.
           '''
         }
 % endfor
       ]
     },

     { name: "FATAL_ERR_CODE",
       desc: "Error code ",
       swaccess: "ro",
       hwaccess: "hrw",
       fields: [
         { bits: "0",
           name: "REG_INTG",
           resval: 0
           desc: '''
             Register file has experienced a fatal integrity error.
           '''
         },
         { bits: "1",
           name: "IDLE_CNT",
           resval: 0
           desc: '''
             One of the idle counts encountered a duplicate error.
           '''
         },
         { bits: "2",
           name: "SHADOW_STORAGE_ERR",
           resval: 0
           desc: '''
             One of the shadow registers encountered a storage error.
           '''
         },
       ]
     },
   ]
 }
	// Copyright lowRISC contributors.
	// Licensed under the Apache License, Version 2.0, see LICENSE for details.
	// SPDX-License-Identifier: Apache-2.0

	# CLKMGR register template
	#
	{
	name: "CLKMGR",
	scan: "true",
	clocking: [
	{clock: "clk_i", reset: "rst_ni", primary: true},
	% for src in clocks.srcs.values():
	{clock: "clk_${src.name}_i", reset: "rst_${src.name}_ni"},
	% endfor
	% for src in clocks.derived_srcs.values():
	{clock: "clk_${src.name}_i", reset: "rst_${src.name}_ni", internal: true},
	% endfor
	% for src in clocks.all_derived_srcs():
	{reset: "rst_por_${src}_ni"},
	% endfor
	]
	bus_interfaces: [
	{ protocol: "tlul", direction: "device" }
	],
	alert_list: [
	{ name: "recov_fault",
	desc: '''
	This recoverable alert is triggered when there are measurement errors.
	'''
	}
	{ name: "fatal_fault",
	desc: '''
	This fatal alert is triggered when a fatal TL-UL bus integrity fault is detected.
	'''
	}
	],
	regwidth: "32",
	param_list: [
	{ name: "NumGroups",
	desc: "Number of clock groups",
	type: "int",
	default: "${len(clocks.groups)}",
	local: "true"
	},
	{ name: "NumSwGateableClocks",
	desc: "Number of SW gateable clocks",
	type: "int",
	default: "${len(typed_clocks.sw_clks)}",
	local: "true"
	},
	{ name: "NumHintableClocks",
	desc: "Number of hintable clocks",
	type: "int",
	default: "${len(hint_names)}",
	local: "true"
	},
	],

	inter_signal_list: [
	{ struct: "clkmgr_out",
	type: "uni",
	name: "clocks",
	act: "req",
	package: "clkmgr_pkg",
	},

	{ struct: "clkmgr_cg_en",
	type: "uni",
	name: "cg_en",
	act: "req",
	package: "clkmgr_pkg",
	},

	{ struct: "lc_tx",
	type: "uni",
	name: "lc_hw_debug_en",
	act: "rcv",
	package: "lc_ctrl_pkg",
	},

	{ struct: "mubi4",
	type: "uni",
	name: "io_clk_byp_req",
	act: "req",
	package: "prim_mubi_pkg",
	},

	{ struct: "mubi4",
	type: "uni",
	name: "io_clk_byp_ack",
	act: "rcv",
	package: "prim_mubi_pkg",
	},

	{ struct: "mubi4",
	type: "uni",
	name: "all_clk_byp_req",
	act: "req",
	package: "prim_mubi_pkg",
	},

	{ struct: "mubi4",
	type: "uni",
	name: "all_clk_byp_ack",
	act: "rcv",
	package: "prim_mubi_pkg",
	},

	{ struct: "mubi4",
	type: "uni",
	name: "hi_speed_sel",
	act: "req",
	package: "prim_mubi_pkg",
	},

	{ struct: "mubi4",
	type: "uni",
	name: "div_step_down_req",
	act: "rcv",
	package: "prim_mubi_pkg",
	},

	{ struct: "lc_tx",
	type: "uni",
	name: "lc_clk_byp_req",
	act: "rcv",
	package: "lc_ctrl_pkg",
	},

	{ struct: "lc_tx",
	type: "uni",
	name: "lc_clk_byp_ack",
	act: "req",
	package: "lc_ctrl_pkg",
	},

	{ struct: "mubi4",
	type: "uni",
	name: "jitter_en",
	act: "req",
	package: "prim_mubi_pkg"
	},

	// Exported clocks
	% for intf in cfg['exported_clks']:
	{ struct: "clkmgr_${intf}_out",
	type: "uni",
	name: "clocks_${intf}",
	act: "req",
	package: "clkmgr_pkg",
	},
	% endfor

	{ struct: "pwr_clk",
	type: "req_rsp",
	name: "pwr",
	act: "rsp",
	},

	{ struct: "mubi4",
	type: "uni",
	name: "idle",
	act: "rcv",
	package: "prim_mubi_pkg",
	width: "${len(hint_names)}"
	},

	{ struct: "logic",
	desc: "Indicates clocks are calibrated and frequencies accurate",
	type: "uni",
	name: "calib_rdy",
	act: "rcv",
	package: "",
	width: "1"
	},
	],

	countermeasures: [
	{ name: "BUS.INTEGRITY",
	desc: "End-to-end bus integrity scheme."
	},
	{ name: "TIMEOUT.CLK.BKGN_CHK",
	desc: "Background check for clock timeout."
	},
	{ name: "MEAS.CLK.BKGN_CHK",
	desc: "Background check for clock frequency."
	},
	{ name: "MEAS.CONFIG.SHADOW",
	desc: "Measurement configurations are shadowed."
	}
	{ name: "IDLE.INTERSIG.MUBI",
	desc: "Idle inputs are multibit encoded."
	}
	{ name: "LC_CTRL.INTERSIG.MUBI",
	desc: "The life cycle control signals are multibit encoded."
	}
	{ name: "LC_CTRL_CLK_HANDSHAKE.INTERSIG.MUBI",
	desc: "The life cycle clock req/ack signals are multibit encoded."
	}
	{ name: "CLK_HANDSHAKE.INTERSIG.MUBI",
	desc: "The external clock req/ack signals are multibit encoded."
	}
	{ name: "DIV.INTERSIG.MUBI",
	desc: "Divider step down request is multibit encoded."
	}
	{ name: "JITTER.CONFIG.MUBI",
	desc: "The jitter enable configuration is multibit encoded."
	}
	{ name: "IDLE.CTR.REDUN",
	desc: "Idle counter is duplicated."
	}
	{ name: "MEAS.CONFIG.REGWEN",
	desc: "The measurement controls protected with regwen."
	}
	{ name: "CLK_CTRL.CONFIG.REGWEN",
	desc: "Software controlled clock requests are proteced with regwen."
	}

	]

	registers: [
	{ name: "EXTCLK_CTRL_REGWEN",
	desc: "External clock control write enable",
	swaccess: "rw0c",
	hwaccess: "none",
	fields: [
	{ bits: "0",
	name: "EN",
	resval: "1"
	desc: '''
	When 1, the value of !!EXTCLK_CTRL can be set. When 0, writes to !!EXTCLK_CTRL have no
	effect.
	'''
	},
	]
	},

	{ name: "EXTCLK_CTRL",
	desc: '''
	Select external clock
	''',
	regwen: "EXTCLK_CTRL_REGWEN",
	swaccess: "rw",
	hwaccess: "hro",
	fields: [
	{
	bits: "3:0",
	name: "SEL",
	mubi: true,
	desc: '''
	When the current value is not kMultiBitBool4True, writing a value of kMultiBitBool4True
	selects external clock as clock for the system. Writing any other value has
	no impact.

	When the current value is kMultiBitBool4True, writing a value of kMultiBitBool4False
	selects internal clock as clock for the system. Writing any other value during this stage
	has no impact.

	While this register can always be programmed, it only takes effect when debug functions are enabled
	in life cycle TEST, DEV or RMA states.
	'''
	resval: "false"
	},
	{
	bits: "7:4",
	name: "HI_SPEED_SEL",
	mubi: true,
	desc: '''
	A value of kMultiBitBool4True selects nominal speed external clock.
	All other values selects low speed clocks.

	Note this field only has an effect when the !!EXTCLK_CTRL.SEL field is set to
	kMultiBitBool4True.

	Nominal speed means the external clock is approximately the same frequency as
	the internal oscillator source. When this option is used, all clocks operate
	at roughly the nominal frequency.

	Low speed means the external clock is approximately half the frequency of the
	internal oscillator source. When this option is used, the internal dividers are
	stepped down. As a result, previously undivided clocks now run at half frequency,
	while previously divided clocks run at roughly the nominal frequency.

	See external clock switch support in documentation for more details.
	'''
	resval: false
	}
	]
	// avoid writing random values to this register as it could trigger transient checks
	// in mubi sync
	tags: ["excl:CsrAllTests:CsrExclWrite"]
	},

	{ name: "EXTCLK_STATUS",
	desc: '''
	Status of requested external clock switch
	''',
	swaccess: "ro",
	hwaccess: "hwo",
	hwext: "true",
	fields: [
	{
	bits: "3:0",
	name: "ACK",
	mubi: true,
	desc: '''
	When !!EXTCLK_CTRL.SEL is set to kMultiBitBool4True, this field reflects
	whether the clock has been switched the external source.

	kMultiBitBool4True indicates the switch is complete.
	kMultiBitBool4False indicates the switch is either not possible or still ongoing.
	'''
	resval: "false"
	},
	]
	},

	{ name: "JITTER_REGWEN",
	desc: "Jitter write enable",
	swaccess: "rw0c",
	hwaccess: "none",
	fields: [
	{ bits: "0",
	name: "EN",
	resval: "1"
	desc: '''
	When 1, the value of !!JITTER_ENABLE can be changed. When 0, writes have no
	effect.
	'''
	},
	]
	},

	{ name: "JITTER_ENABLE",
	desc: '''
	Enable jittery clock
	''',
	swaccess: "rw",
	hwaccess: "hro",
	fields: [
	{
	mubi: true,
	bits: "3:0",
	name: "VAL",
	desc: '''
	Enable jittery clock.
	A value of kMultiBitBool4False disables the jittery clock,
	while all other values enable jittery clock.
	''',
	resval: false
	// avoid writing random values to this register as it could trigger transient checks
	// in mubi sync
	tags: ["excl:CsrAllTests:CsrExclWrite"]
	}
	]
	},

	{ name: "CLK_ENABLES",
	desc: '''
	Clock enable for software gateable clocks.
	These clocks are directly controlled by software.
	''',
	swaccess: "rw",
	hwaccess: "hro",
	fields: [
	% for clk in typed_clocks.sw_clks:
	{
	bits: "${loop.index}",
	name: "${clk.upper()}_EN",
	resval: 1,
	desc: '''
	0 ${clk.upper()} is disabled.
	1 ${clk.upper()} is enabled.
	'''
	}
	% endfor
	]
	// the CLK_ENABLE register cannot be written.
	// During top level randomized tests, it is possible to disable the clocks and then access
	// a register in the disabled block. This would lead to a top level hang.
	tags: ["excl:CsrAllTests:CsrExclAll"]
	},

	{ name: "CLK_HINTS",
	desc: '''
	Clock hint for software gateable transactional clocks during active mode.
	During low power mode, all clocks are gated off regardless of the software hint.

	Transactional clocks are not fully controlled by software. Instead software provides only a disable hint.

	When software provides a disable hint, the clock manager checks to see if the associated hardware block is idle.
	If the hardware block is idle, then the clock is disabled.
	If the hardware block is not idle, the clock is kept on.

	For the enable case, the software hint is immediately honored and the clock turned on. Hardware does not provide any
	feedback in this case.
	''',
	swaccess: "rw",
	hwaccess: "hro",
	fields: [
	% for clk in hint_names.keys():
	{
	bits: "${loop.index}",
	name: "${clk.upper()}_HINT",
	resval: 1,
	desc: '''
	0 ${clk.upper()} can be disabled.
	1 ${clk.upper()} is enabled.
	'''
	}
	% endfor
	]
	// the CLK_HINT register cannot be written.
	// During top level randomized tests, it is possible to disable the clocks to transactional blocks
	// and then access a register in the disabled block. This would lead to a top level hang.
	tags: ["excl:CsrAllTests:CsrExclAll"]
	},

	{ name: "CLK_HINTS_STATUS",
	desc: '''
	Since the final state of !!CLK_HINTS is not always determined by software,
	this register provides read feedback for the current clock state.

	''',
	swaccess: "ro",
	hwaccess: "hwo",
	fields: [
	% for clk in hint_names.keys():
	{
	bits: "${loop.index}",
	name: "${clk.upper()}_VAL",
	resval: 1,
	desc: '''
	0 ${clk.upper()} is disabled.
	1 ${clk.upper()} is enabled.
	'''
	}
	% endfor
	]
	},

	{ name: "MEASURE_CTRL_REGWEN",
	desc: "Measurement control write enable",
	swaccess: "rw0c",
	hwaccess: "hrw",
	fields: [
	{ bits: "0",
	name: "EN",
	resval: "1"
	desc: '''
	When 1, the value of the measurement control can be set. When 0, writes have no
	effect.
	'''
	},
	]
	},
	<% aon_freq = clocks.all_srcs['aon'].freq %>\
	% for src in typed_clocks.rg_srcs:
	{ name: "${src.upper()}_MEAS_CTRL_EN",
	desc: '''
	Enable for measurement control
	''',
	regwen: "MEASURE_CTRL_REGWEN",
	swaccess: "rw",
	hwaccess: "hrw",
	async: "clk_${src}_i",
	fields: [
	{
	bits: "3:0",
	name: "EN",
	desc: "Enable measurement for ${src}",
	mubi: true,
	resval: false,
	},
	]
	// Measurements can cause recoverable errors depending on the
	// thresholds which randomized CSR tests will not predict correctly.
	// To provide better CSR coverage we allow writing the threshold
	// fields, but not enabling the counters.
	tags: ["excl:CsrAllTests:CsrExclWrite"]
	},
	<%
	freq = clocks.all_srcs[src].freq
	ratio = int(freq / aon_freq)
	# Add extra bit to width for margin
	width = ratio.bit_length() + 1
	max_msb = width - 1
	min_msb = (max_msb + 1) + width - 1
	%>
	{ name: "${src.upper()}_MEAS_CTRL_SHADOWED",
	desc: '''
	Configuration controls for ${src} measurement.

	The threshold fields are made wider than required (by 1 bit) to ensure
	there is room to adjust for measurement inaccuracies.
	''',
	regwen: "MEASURE_CTRL_REGWEN",
	swaccess: "rw",
	hwaccess: "hro",
	async: "clk_${src}_i",
	shadowed: "true",
	update_err_alert: "recov_fault",
	storage_err_alert: "fatal_fault",
	fields: [
	{
	bits: "${max_msb}:0",
	name: "HI",
	desc: "Max threshold for ${src} measurement",
	resval: "${ratio + 10}"
	},

	{
	bits: "${min_msb}:${max_msb+1}",
	name: "LO",
	desc: "Min threshold for ${src} measurement",
	resval: "${ratio - 10}"
	},
	]
	},
	% endfor

	{ name: "RECOV_ERR_CODE",
	desc: "Recoverable Error code ",
	swaccess: "rw1c",
	hwaccess: "hwo",
	fields: [
	{ bits: "0",
	name: "SHADOW_UPDATE_ERR",
	resval: 0
	desc: '''
	One of the shadow registers encountered an update error.
	'''
	},
	% for src in typed_clocks.rg_srcs:
	{
	bits: "${loop.index+1}",
	name: "${src.upper()}_MEASURE_ERR",
	resval: 0,
	desc: '''
	${src} has encountered a measurement error.
	'''
	},
	% endfor
	% for src in typed_clocks.rg_srcs:
	{
	bits: "${loop.index + len(typed_clocks.rg_srcs)+1}",
	name: "${src.upper()}_TIMEOUT_ERR",
	resval: 0,
	desc: '''
	${src} has timed out.
	'''
	}
	% endfor
	]
	},

	{ name: "FATAL_ERR_CODE",
	desc: "Error code ",
	swaccess: "ro",
	hwaccess: "hrw",
	fields: [
	{ bits: "0",
	name: "REG_INTG",
	resval: 0
	desc: '''
	Register file has experienced a fatal integrity error.
	'''
	},
	{ bits: "1",
	name: "IDLE_CNT",
	resval: 0
	desc: '''
	One of the idle counts encountered a duplicate error.
	'''
	},
	{ bits: "2",
	name: "SHADOW_STORAGE_ERR",
	resval: 0
	desc: '''
	One of the shadow registers encountered a storage error.
	'''
	},
	]
	},
	]
	}