Esempio n. 1
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def use_route_blocks(dev,used_route_blocks,conn_assign):
  path = conn_assign.path
  vadpstmts = []
  if len(path) <= 2:
    return vadpstmts,list(path)

  new_path = list(path)
  for idx,(route_block,route_inst_pattern) in enumerate(path[1:-1]):
    blk = dev.get_block(route_block)
    assert(len(blk.modes) == 1)
    assert(len(blk.state) == 0)
    assert(len(blk.data) == 0)
    # get first compatible instance that has not been used yet
    try:
      inst = next(inst for inst in dev.layout.instances(route_block) \
                  if not devlib.Layout \
                  .intersection(inst,route_inst_pattern) is None and \
                  (route_block,inst) not in used_route_blocks )

      new_path[1+idx]= (route_block,inst)
      used_route_blocks.append((route_block,inst))
      target_port = vadplib.PortVar(blk,devlib.Location(inst))
      stmt = vadplib.VADPConfig(target_port,blk.modes)
      stmt.target.ident = devlib.Location(inst)
      vadpstmts.append(stmt)
    except StopIteration as e:
      raise Exception("no instances for route block <%s>" % route_block)

  return vadpstmts,new_path
Esempio n. 2
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def generate_vadp_fragment_for_path(dev,route_block_instances,conn_assign):
  def get_route_input(blk):
    name = blk.inputs.field_names()[0]
    return blk.inputs[name]

  def get_route_output(blk):
    name = blk.outputs.field_names()[0]
    return blk.outputs[name]

  vadp_config_stmts, path = use_route_blocks(dev, \
                                             route_block_instances, \
                                             conn_assign)
  for stmt in vadp_config_stmts:
    yield stmt

  for idx in range(0,len(path)-1):
    src_tuple = path[idx]
    dest_tuple = path[idx+1]
    assert(not devlib.Layout.is_pattern(src_tuple[1]))
    assert(not devlib.Layout.is_pattern(dest_tuple[1]))
    srcblk = dev.get_block(src_tuple[0])
    src = vadplib.PortVar(srcblk, \
                  devlib.Location(src_tuple[1]), \
                  srcblk.outputs[src_tuple[2]] \
                  if len(src_tuple) == 3 else \
                  get_route_output(srcblk)
    )
    destblk = dev.get_block(dest_tuple[0])
    dest = vadplib.PortVar(destblk, \
                  devlib.Location(dest_tuple[1]), \
                  destblk.inputs[dest_tuple[2]] \
                  if len(dest_tuple) == 3 else \
                  get_route_input(destblk)
    )
    yield vadplib.VADPConn(src,dest)
Esempio n. 3
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def test_board(args):
    board = runtime_util.get_device(args.model_number, layout=True)
    for chip_id in range(0, 2):
        for tile_id in range(4):
            for slice_id in [0, 2]:
                for block in board.blocks:
                    if not block.requires_calibration():
                        continue

                    modes = list(block.modes)
                    # limit the fanout modes to just positive copies
                    if block.name == "fanout":
                        modes = list(
                            filter(lambda m: not "-" in str(m), block.modes))

                    loc = devlib.Location([chip_id, tile_id, slice_id, 0])
                    test_block(board,block,loc,modes, \
                               maximize_fit=args.maximize_fit, \
                               minimize_error=args.minimize_error, \
                               model_based=args.model_based)


    finalize_test(board, \
                  maximize_fit=args.maximize_fit, \
                  minimize_error=args.minimize_error, \
                  model_based=args.model_based)
Esempio n. 4
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  def resources(self):
    if len(self.path) <= 2:
      return

    for route_block,route_loc in self.path[1:-1]:
      yield BlockInstanceResource(self.dev, \
                              self.dev.get_block(route_block),
                              devlib.Location(route_loc))


    '''
Esempio n. 5
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def from_block_loc_t(dev,dict_):
    chip = dict_['chip']
    tile = dict_['tile']
    slice_ = dict_['slice']
    idx = dict_['idx']
    block_type = llenums.BlockType.by_name(str(dict_['block']))
    blk = dev.get_block(block_type.value)
    addr = [int(dict_['chip']), \
            int(dict_['tile']), \
            int(dict_['slice']), \
            int(dict_['idx'])]
    return blk,devlib.Location(addr)
Esempio n. 6
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def get_device(model_number, layout=False, model_subdir=""):
    hcdcv2 = devlib.Device('hcdcv2',
                           model_number=model_number,
                           model_subdir=model_subdir)
    hcdcv2.add_block(hwlib.hcdc.fanout.fan)
    hcdcv2.add_block(hwlib.hcdc.mult.mult)
    hcdcv2.add_block(hwlib.hcdc.integ.integ)
    hcdcv2.add_block(hwlib.hcdc.ext_out.ext_out)
    hcdcv2.add_block(hwlib.hcdc.dac.dac)
    hcdcv2.add_block(hwlib.hcdc.adc.adc)
    hcdcv2.add_block(hwlib.hcdc.lut.lut)
    hcdcv2.add_block(hwlib.hcdc.routeblocks.tin)
    hcdcv2.add_block(hwlib.hcdc.routeblocks.tout)
    hcdcv2.add_block(hwlib.hcdc.routeblocks.cin)
    hcdcv2.add_block(hwlib.hcdc.routeblocks.cout)
    hcdcv2.add_block(hwlib.hcdc.ext_in.ext_in)

    # hwtime/wall clock time
    hcdcv2.time_constant = 1.0 / 126000
    # profiling operations
    hcdcv2.profile_status_type = llenums.ProfileStatus
    hcdcv2.profile_op_type = llenums.ProfileOpType
    if layout:
        hcdc_layout.make(hcdcv2)

    hcdcv2.set_external_pin(llenums.ExternalPins.OUT0, \
                            hwlib.hcdc.ext_out.ext_out, \
                            devlib.Location([0,3,2,0]), \
                            'z', \
                            llenums.Channels.POS)

    hcdcv2.set_external_pin(llenums.ExternalPins.OUT1, \
                            hwlib.hcdc.ext_out.ext_out, \
                            devlib.Location([0,3,2,0]), \
                            'z', \
                            llenums.Channels.NEG)

    return hcdcv2
Esempio n. 7
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def characterize_adp(args):
    board = runtime_util.get_device(args.model_number, layout=True)
    runtime = GrendelRunner()
    runtime.initialize()
    if not args.adp is None:
        adp = runtime_util.get_adp(board, args.adp, widen=args.widen)
        if args.adp_locs:
            args.num_locs = 1

        for cfg in adp.configs:
            blk = board.get_block(cfg.inst.block)
            cfg_modes = cfg.modes
            for mode in cfg_modes:
                cfg.modes = [mode]
                characterize_configured_block(runtime,board,blk,cfg, \
                                              grid_size=args.grid_size, \
                                              num_locs=args.num_locs,\
                                              num_hidden_codes=args.num_hidden_codes, \
                                              adp_locs=args.adp_locs)

    else:
        if args.adp_locs or args.widen:
            raise Exception(
                "full board characterization doesn't accept adp-locs or widen parameters"
            )

        for block in board.blocks:
            if not block.requires_calibration():
                continue
                continue

            for mode in block.modes:
                loc = devlib.Location(
                    list(board.layout.instances(block.name))[0])
                cfg = BlockConfig.make(block, loc)
                cfg.modes = [mode]
                characterize_configured_block(runtime,board,block,cfg, \
                                                grid_size=args.grid_size, \
                                                num_locs=args.num_locs,\
                                                num_hidden_codes=args.num_hidden_codes, \
                                                adp_locs=False)
Esempio n. 8
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  def add_virtual_instance(self,block,identifier):
    instances = set(map(lambda full_loc: \
                    devlib.Location(self.dev.layout.prefix(full_loc,self.view)),\
                    self.dev.layout.instances(block.name)))


    if len(instances) == 0:
      self.fail(" no locations for block <%s> with identifier <%d>" \
                % (block.name,identifier))

    for loc in instances:
      if not self.is_valid_instance_assignment(block,identifier,loc):
        continue

      assign = BlockIdentifierAssignVar(self.dev, \
                                        block, \
                                        identifier, \
                                        loc)
      self.identifier_assigns \
          .append(assign)

      for res in assign.resources():
            if not res in self.resources:
              self.resources.append(res)
Esempio n. 9
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def random_locs(board,block,num_locs):
    insts = list(board.layout.instances(block.name))
    for addr in random.sample(insts,min(len(insts),num_locs)):
        yield devlib.Location(addr)