1 | |
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2 | __doc__ = ''' |
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3 | This file is a Cluster library. It contains classes implementing the |
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4 | netlist of a cluster, for different tsar versions. |
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5 | ''' |
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6 | |
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7 | class Cluster: |
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8 | ''' |
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9 | A generic netlist of a cluster, which must be subclassed to |
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10 | implement caches&dma instanciation |
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11 | ''' |
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12 | |
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13 | def __init__(self, pf, ringp, ringc, mtp, mtc, mtx, proc_count, cluster_no, cluster_base): |
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14 | self.pf = pf |
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15 | self.ringp = ringp |
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16 | self.ringc = ringc |
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17 | self.mtp = mtp |
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18 | self.mtc = mtc |
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19 | self.mtx = mtx |
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20 | self.cluster_no = cluster_no |
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21 | |
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22 | self.generate(proc_count, cluster_base) |
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23 | |
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24 | def generate(self, proc_count, cluster_base): |
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25 | ''' |
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26 | The core netlist, where caches and components are created |
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27 | ''' |
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28 | self.cpu = [] |
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29 | for i in range(proc_count): |
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30 | c = self.create_cpu(i, |
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31 | cluster_base |
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32 | + 0x01200000 |
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33 | + 0x01000000 * i |
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34 | ) |
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35 | self.cpu.append(c) |
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36 | |
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37 | memc, xram = self.create_memcache( segments = [ |
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38 | ('reset', 0xbfc00000, 0x00010000), |
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39 | ('excep', 0x80000000, 0x00010000), |
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40 | ('text', 0x00400000, 0x00050000), |
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41 | ('data', 0x10000000, 0x00100000), |
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42 | ] ) |
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43 | tty = self.create_tty( addr = 0xc0200000, tty_count = proc_count ) |
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44 | |
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45 | def create_tty(self, addr, tty_count = 1): |
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46 | names = map(lambda x:'tty%d'%x, range(tty_count)) |
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47 | name = 'tty%d'%self.cluster_no |
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48 | tty = self.pf.create('caba:vci_multi_tty', name, names = names) |
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49 | self.ringp.to_target.new() // tty.vci |
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50 | tty.addSegment(name, address = addr, size = 0x40, cacheable = False) |
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51 | return tty |
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52 | |
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53 | |
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54 | class ClusterV3(Cluster): |
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55 | ''' |
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56 | A TsarV3 implementation, using vci_cc_vcache_wrapper2_v1, |
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57 | vci_mem_cache_v3 and vci_dma_tsar_v2. |
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58 | ''' |
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59 | |
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60 | def create_cpu(self, cpuid, addr): |
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61 | c = self.pf.create( |
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62 | 'caba:vci_cc_xcache_wrapper_v1', |
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63 | 'proc_%d_%d' % (self.cluster_no, cpuid), |
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64 | iss_t = "common:mips32el", |
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65 | proc_id = cpuid, |
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66 | icache_ways = 4, |
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67 | icache_sets = 64, |
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68 | icache_words = 16, |
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69 | dcache_ways = 4, |
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70 | dcache_sets = 64, |
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71 | dcache_words = 16, |
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72 | write_buf_size = 16, |
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73 | ) |
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74 | self.ringc.to_initiator.new() // c.vci_ini_c |
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75 | self.ringc.to_target.new() // c.vci_tgt |
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76 | self.ringp.to_initiator.new() // c.vci_ini_rw |
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77 | |
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78 | c.addSegment('proc_%d_%d' % (self.cluster_no, cpuid), |
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79 | address = addr, |
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80 | size = 0x10, |
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81 | cacheable = False, |
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82 | ) |
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83 | |
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84 | return c |
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85 | |
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86 | def create_memcache(self, segments): |
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87 | memc = self.pf.create('caba:vci_mem_cache_v1', 'memc', |
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88 | mtx = self.mtx, |
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89 | vci_ixr_index = (self.cluster_no,), |
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90 | nways = 16, |
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91 | nsets = 256, |
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92 | nwords = 16, |
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93 | ) |
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94 | self.ringc.to_target.new() // memc.vci_tgt_cleanup |
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95 | self.ringp.to_target.new() // memc.vci_tgt |
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96 | self.ringc.to_initiator.new() // memc.vci_ini |
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97 | |
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98 | xram = self.pf.create('caba:vci_simple_ram', 'xram', |
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99 | mt = self.mtx, |
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100 | ident = (self.cluster_no,), |
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101 | latency = 1, |
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102 | ) |
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103 | memc.vci_ixr // xram.vci |
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104 | |
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105 | for name, addr, size in segments: |
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106 | # Here DSX knows the only way to address xram is through its |
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107 | # vci port. It also knows the only associated mapping_table. |
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108 | xram.addSegment('ram_x_'+name, address = addr, size = size, cacheable = True) |
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109 | |
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110 | # For these segments, there is ambiguity for the mapping_table |
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111 | # we are talking about, so we specify mt = ... |
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112 | memc.addSegment('ram_p_'+name, address = addr, size = size, cacheable = True, mt = self.mtp) |
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113 | memc.addSegment('ram_c_'+name, address = addr, size = size, cacheable = True, mt = self.mtc) |
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114 | return memc, xram |
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