1 | /* |
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2 | * kern/dqdt.h - Distributed Quad Decision Tree |
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3 | * |
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4 | * Author : Alain Greiner (2016) |
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5 | * |
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6 | * Copyright (c) UPMC Sorbonne Universites |
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7 | * |
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8 | * This file is part of ALMOS-MKH |
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9 | * |
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10 | * ALMOS-kernel is free software; you can redistribute it and/or modify it |
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11 | * under the terms of the GNU General Public License as published by |
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12 | * the Free Software Foundation; version 2.0 of the License. |
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13 | * |
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14 | * ALMOS-kernel is distributed in the hope that it will be useful, but |
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15 | * WITHOUT ANY WARRANTY; without even the implied warranty of |
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16 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU |
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17 | * General Public License for more details. |
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18 | * |
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19 | * You should have received a copy of the GNU General Public License |
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20 | * along with ALMOS-kernel; if not, write to the Free Software Foundation, |
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21 | * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA |
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22 | */ |
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23 | |
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24 | #ifndef _DQDT_H_ |
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25 | #define _DQDT_H_ |
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26 | |
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27 | #include <kernel_config.h> |
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28 | #include <hal_types.h> |
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29 | #include <hal_atomic.h> |
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30 | |
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31 | /**************************************************************************************** |
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32 | * This DQDT infrastructure maintains a topological description of ressources usage |
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33 | * (number of threads, and number of physical pages allocated) in each cluster. |
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34 | * |
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35 | * - If X_SIZE or Y_SIZE are equal to 1, it makes the assumption that the cluster |
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36 | * topology is a one dimensionnal vector, an build the smallest one-dimensionnal |
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37 | * quad-tree covering this one-dimensionnal vector. If the number of clusters |
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38 | * is not a power of 4, the tree is truncated as required. |
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39 | * TODO : the mapping for the one dimensionnal topology is not implemented yet [AG]. |
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40 | * |
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41 | * - If both Y_SIZE and Y_SIZE are larger than 1, it makes the assumption that |
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42 | * the cluster topology is a 2D mesh. The [X,Y] coordinates of a cluster are |
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43 | * obtained from the CXY identifier using the following rules : |
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44 | * X = CXY >> Y_WIDTH / Y = CXY & ((1<<Y_WIDTH)-1) |
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45 | * If the mesh X_SIZE and Y_SIZE dimensions are not equal, or are not power of 2, |
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46 | * we build the smallest two dimensionnal quad-tree covering all clusters, |
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47 | * and this tree is truncated as required. |
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48 | * The root node is always implemented in cluster [0,0] |
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49 | * The mesh size is supposed to contain at most 32 * 32 clusters. |
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50 | * There are at most 6 DQDT nodes in a cluster |
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51 | * . Level 0 nodes exist on all clusters and have no children. |
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52 | * . Level 1 nodes exist when both X and Y coordinates are multiple of 2 |
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53 | * . Level 2 nodes exist when both X and Y coordinates are multiple of 4 |
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54 | * . Level 3 nodes exist when both X and Y coordinates are multiple of 8 |
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55 | * . Level 4 nodes exist when both X and Y coordinates are multiple of 16 |
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56 | * . Level 5 nodes exist when both X and Y coordinates are multiple of 32 |
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57 | ***************************************************************************************/ |
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58 | |
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59 | /**************************************************************************************** |
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60 | * This structure describes a node of the DQDT. |
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61 | * The max number of children is 4, but it can be smaller for some nodes. |
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62 | * Level 0 nodes are the clusters, and have no children. |
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63 | * The root node has no parent, and is always stored in cluster[0,0]. |
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64 | ***************************************************************************************/ |
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65 | typedef struct dqdt_node_s |
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66 | { |
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67 | uint32_t level; // node level |
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68 | uint32_t arity; // actual children number in this node |
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69 | uint32_t threads; // current number of threads in subtree |
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70 | uint32_t pages; // current number of pages in subtree |
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71 | xptr_t parent; // extended pointer on parent node |
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72 | xptr_t children[4]; // extended pointers on children nodes |
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73 | } |
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74 | dqdt_node_t; |
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75 | |
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76 | |
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77 | /**************************************************************************************** |
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78 | * This local function initializes the local DQDT structures. |
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79 | * The information describing the hardware platform topology and the cluster |
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80 | * indexing policy is defined by the three arguments below. |
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81 | * This initialisation is done in parallel, locally in each cluster, because the DQDT |
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82 | * is allocated as a global variable in the cluster_manager, and the local addresses |
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83 | * are identical in all clusters. |
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84 | **************************************************************************************** |
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85 | * @ x_size : number of clusters (containing memory and CPUs) in a row |
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86 | * @ y_size : number of clusters (containing memory and CPUs) in a column |
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87 | * @ y_width : number of LSB used to code the Y value in CXY |
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88 | * @ return the number of levels in quad-tree. |
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89 | ***************************************************************************************/ |
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90 | uint32_t dqdt_init( uint32_t x_size, |
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91 | uint32_t y_size, |
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92 | uint32_t y_width ); |
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93 | |
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94 | /**************************************************************************************** |
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95 | * This recursive function displays usage information for all DQDT nodes in the subtree |
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96 | * defined by the node argument. It traverses the quadtree from root to bottom. |
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97 | **************************************************************************************** |
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98 | * @ node_xp : extended pointer on a DQDT node. |
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99 | ***************************************************************************************/ |
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100 | void dqdt_global_print( xptr_t node_xp ); |
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101 | |
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102 | /**************************************************************************************** |
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103 | * This function displays summary usage information in a given DQDT local node. |
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104 | **************************************************************************************** |
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105 | * @ node : local pointer on a DQDT node. |
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106 | ***************************************************************************************/ |
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107 | void dqdt_local_print( dqdt_node_t * node ); |
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108 | |
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109 | /**************************************************************************************** |
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110 | * This recursive function traverses the DQDT quad-tree from bottom to root, to propagate |
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111 | * the change in the threads number and allocated pages number in a leaf cluster, |
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112 | * toward the upper levels of the DQDT quad-tree. |
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113 | * It should be called periodically by each instance of the kernel. |
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114 | ***************************************************************************************/ |
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115 | void dqdt_global_update(); |
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116 | |
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117 | /**************************************************************************************** |
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118 | * This local function updates both the total number of threads, |
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119 | * in the level 0 DQDT node, and the variation of the number of threads |
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120 | * for future propagation to the DQDT upper levels. |
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121 | * It should be called on each thread creation or destruction. |
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122 | **************************************************************************************** |
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123 | * @ increment : increment (can be positive or negative) |
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124 | ***************************************************************************************/ |
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125 | void dqdt_local_update_threads( int32_t increment ); |
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126 | |
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127 | /**************************************************************************************** |
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128 | * This local function updates both the total number of allocated pages, |
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129 | * in the level 0 DQDT node, and the variation of the number of pages |
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130 | * for future propagation to the DQDT upper levels. |
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131 | * It should be called on each memory allocation or release. |
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132 | **************************************************************************************** |
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133 | * @ increment : increment (can be positive or negative) |
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134 | ***************************************************************************************/ |
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135 | void dqdt_local_update_pages( int32_t increment ); |
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136 | |
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137 | /**************************************************************************************** |
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138 | * This function can be called in any cluster. It traverses the DQDT tree |
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139 | * from the root to the bottom, to analyse the computing load and select the cluster |
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140 | * with the lowest number ot threads to place a new process. |
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141 | **************************************************************************************** |
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142 | * @ returns the cluster identifier with the lowest computing load. |
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143 | ***************************************************************************************/ |
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144 | cxy_t dqdt_get_cluster_for_process(); |
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145 | |
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146 | /**************************************************************************************** |
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147 | * This function can be called in any cluster. It traverses the DQDT tree |
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148 | * from the root to the bottom, to analyse the memory load and select the cluster |
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149 | * with the lowest memory load for dynamic memory allocation with no locality constraint. |
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150 | **************************************************************************************** |
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151 | * @ returns the cluster identifier with the lowest memory load. |
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152 | ***************************************************************************************/ |
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153 | cxy_t dqdt_get_cluster_for_memory(); |
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154 | |
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155 | |
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156 | #endif /* _DQDT_H_ */ |
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