Source code for spinnman.constants
# Copyright (c) 2014 The University of Manchester
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# https://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
from enum import Enum
#: the amount of time to wait in seconds between powering off and powering
# on a SpiNNaker board.
POWER_CYCLE_WAIT_TIME_IN_SECONDS = 30
#: The default port of the connection
SCP_SCAMP_PORT = 17893
#: The default port of the connection
UDP_BOOT_CONNECTION_DEFAULT_PORT = 54321
#: The base address of the system variable structure in System ram
SYSTEM_VARIABLE_BASE_ADDRESS = 0xf5007f00
#: The base address of a routers diagnostic filter controls
ROUTER_REGISTER_BASE_ADDRESS = 0xe1000000
#: The base address of a routers p2p routing table
ROUTER_REGISTER_P2P_ADDRESS = ROUTER_REGISTER_BASE_ADDRESS + 0x10000
#: Offset for the router filter controls first register (one word each)
ROUTER_FILTER_CONTROLS_OFFSET = 0x200
#: Point where default filters finish and user set-able ones are available
ROUTER_DEFAULT_FILTERS_MAX_POSITION = 11
#: Size of a router diagnostic filter control register in bytes
ROUTER_DIAGNOSTIC_FILTER_SIZE = 4
#: Number of router diagnostic filters
NO_ROUTER_DIAGNOSTIC_FILTERS = 16
#: The size of the system variable structure in bytes
SYSTEM_VARIABLE_BYTES = 256
#: The max size a UDP packet can be, excluding headers
UDP_MESSAGE_MAX_SIZE = 256
#: The address of the start of the VCPU structure (copied from sark.h)
CPU_INFO_OFFSET = 0xe5007000
#: How many bytes the CPU info data takes up
CPU_INFO_BYTES = 128
#: The address at which user0 register starts
CPU_USER_0_START_ADDRESS = 112
#: The address at which user1 register starts
CPU_USER_1_START_ADDRESS = 116
#: The address at which user2 register starts
CPU_USER_2_START_ADDRESS = 120
#: The address at which user3 register starts
CPU_USER_3_START_ADDRESS = 124
#: The address at which the iobuf address starts
CPU_IOBUF_ADDRESS_OFFSET = 88
#: Max user requested tag value
MAX_TAG_ID = 7
#: The range of values the BMP's 12-bit ADCs can measure.
BMP_ADC_MAX = 1 << 12
#: Multiplier to convert from ADC value to volts for lines less than 2.5 V.
BMP_V_SCALE_2_5 = 2.5 / BMP_ADC_MAX
#: Multiplier to convert from ADC value to volts for 3.3 V lines.
BMP_V_SCALE_3_3 = 3.75 / BMP_ADC_MAX
#: Multiplier to convert from ADC value to volts for 12 V lines.
BMP_V_SCALE_12 = 15.0 / BMP_ADC_MAX
#: Multiplier to convert from temperature probe values to degrees Celsius.
BMP_TEMP_SCALE = 1.0 / 256.0
#: Temperature value returned when a probe is not connected.
BMP_MISSING_TEMP = -0x8000
#: Fan speed value returned when a fan is absent.
BMP_MISSING_FAN = -1
#: Timeout for BMP power-on commands to reply.
BMP_POWER_ON_TIMEOUT = 10.0
#: Timeout for other BMP commands to reply
BMP_TIMEOUT = 0.5
#: Time to sleep after powering on boards
BMP_POST_POWER_ON_SLEEP_TIME = 5.0
[docs]class EIEIO_COMMAND_IDS(Enum):
"""
A listing of what SpiNNaker specific EIEIO commands there are.
"""
#: Database handshake with external program; not routed via SpiNNaker
DATABASE = 1
#: Fill in buffer area with padding
EVENT_PADDING = 2
#: End of all buffers, stop execution
EVENT_STOP = 3
#: Stop complaining that there is SDRAM free space for buffers
STOP_SENDING_REQUESTS = 4
#: Start complaining that there is SDRAM free space for buffers
START_SENDING_REQUESTS = 5
#: Spinnaker requesting new buffers for spike source population
SPINNAKER_REQUEST_BUFFERS = 6
#: Buffers being sent from host to SpiNNaker
HOST_SEND_SEQUENCED_DATA = 7
#: Buffers available to be read from a buffered out vertex
SPINNAKER_REQUEST_READ_DATA = 8
#: Host confirming data being read form SpiNNaker memory
HOST_DATA_READ = 9
#: Command for notifying the external devices that the simulation
#: has stopped
STOP_PAUSE_NOTIFICATION = 10
#: Command for notifying the external devices that the simulation has
#: started
START_RESUME_NOTIFICATION = 11
#: Host confirming request to read data received
HOST_DATA_READ_ACK = 12
[docs]class IPTAG_TIME_OUT_WAIT_TIMES(Enum):
"""
The values used by the SCP IP tag time outs. These control how long to wait
for any message request which requires a response, before raising an error.
The value is calculated via the following formula:
10ms * 2^(`tag_timeout_value` - 1)
"""
TIMEOUT_10_ms = 1
TIMEOUT_20_ms = 2
TIMEOUT_40_ms = 3
TIMEOUT_80_ms = 4
TIMEOUT_160_ms = 5
TIMEOUT_320_ms = 6
TIMEOUT_640_ms = 7
TIMEOUT_1280_ms = 8
TIMEOUT_2560_ms = 9
[docs]class ROUTER_REGISTER_REGISTERS(Enum):
"""
The indices to the router registers.
"""
LOC_MC = 0
EXT_MC = 1
LOC_PP = 2
EXT_PP = 3
LOC_NN = 4
EXT_NN = 5
LOC_FR = 6
EXT_FR = 7
DUMP_MC = 8
DUMP_PP = 9
DUMP_NN = 10
DUMP_FR = 11
USER_0 = 12
USER_1 = 13
USER_2 = 14
USER_3 = 15
[docs]class READ_TYPES(Enum):
"""
The types of read available from SARK. These values are used to tell
SARK how to read the data in a time efficient manner.
"""
BYTE = 0
HALF_WORD = 1
WORD = 2
#: This is a mapping between read address in the mapping between word byte
#: position, the number of bytes you wish to read, and the type of time
#: efficient way to read said amount of bytes via SARK
address_length_dtype = {
(0, 0): READ_TYPES.WORD,
(0, 1): READ_TYPES.BYTE,
(0, 2): READ_TYPES.HALF_WORD,
(0, 3): READ_TYPES.BYTE,
(1, 0): READ_TYPES.BYTE,
(1, 1): READ_TYPES.BYTE,
(1, 2): READ_TYPES.BYTE,
(1, 3): READ_TYPES.BYTE,
(2, 0): READ_TYPES.HALF_WORD,
(2, 1): READ_TYPES.BYTE,
(2, 2): READ_TYPES.HALF_WORD,
(2, 3): READ_TYPES.BYTE,
(3, 0): READ_TYPES.BYTE,
(3, 1): READ_TYPES.BYTE,
(3, 2): READ_TYPES.BYTE,
(3, 3): READ_TYPES.BYTE}
#: This is the default timeout when using SCP
SCP_TIMEOUT = 1.0
#: This is the default number of retries when using SCP
N_RETRIES = 10
#: This is the number of retries during boot - this is different because
#: otherwise boot takes too long (retrying on a non-booted machine will never
#: work)
BOOT_RETRIES = 3