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L1MuGMTMIAUPhiPro2LUT.cc
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1 //-------------------------------------------------
2 //
3 // Class: L1MuGMTMIAUPhiPro2LUT
4 //
5 //
6 //
7 // Author :
8 // H. Sakulin HEPHY Vienna
9 //
10 // Migrated to CMSSW:
11 // I. Mikulec
12 //
13 //--------------------------------------------------
14 
15 //-----------------------
16 // This Class's Header --
17 //-----------------------
19 
20 //---------------
21 // C++ Headers --
22 //---------------
23 
24 //-------------------------------
25 // Collaborating Class Headers --
26 //-------------------------------
28 
29 //-------------------
30 // InitParameters --
31 //-------------------
32 
34 
35 //--------------------------------------------------------------------------------
36 // Phi Projection LUT 2: Set phi-select-bits based on start calo region(5bit), offset(3bit),
37 // ===================== fine-grain offset(1bit) and charge(1 bit)
38 //
39 // The 18 phi-select bits select which calo regions have to be checked for MIP
40 // and Quiet information. For MIP by default only one region is checked while for
41 // the Quiet bits multiple regions can be ckecked based on IsolationCellSizePhi.
42 // If IsolationCellSizePhi is even, then the fine-grain offset decides in which
43 // direction from the central region to check additional regions.
44 //
45 //--------------------------------------------------------------------------------
46 
48  int idx, unsigned cphi_start, unsigned cphi_fine, unsigned cphi_ofs, unsigned charge) const {
49  // idx is MIP_DT, MIP_BRPC, ISO_DT, ISO_BRPC, MIP_CSC, MIP_FRPC, ISO_CSC, ISO_FRPC
50  // INPUTS: cphi_start(5) cphi_fine(1) cphi_ofs(3) charge(1)
51  // OUTPUTS: phi_sel(18)
52 
53  // this LUT generates the 18 phi-select bits for the 18 Calo regions
54  if (cphi_start > 17)
55  return 0;
56 
57  int isISO = (idx / 2) % 2;
58 
59  int offset = (int(cphi_ofs) - 1) * ((charge == 0) ? 1 : -1);
60 
61  int center_region = (18 + int(cphi_start) + offset) % 18;
62 
63  // for MIP bit assignment, only one region is selected
64  unsigned phi_select_word = 1 << center_region;
65 
66  // for ISOlation bit assignment, multiple regions can be selected according to the IsolationCellSize
67  if (isISO) {
68  int imin = center_region - (m_IsolationCellSizePhi - 1) / 2;
69  int imax = center_region + (m_IsolationCellSizePhi - 1) / 2;
70 
71  // for even number of isolation cells check the fine grain info
72  if (m_IsolationCellSizePhi % 2 == 0) {
73  if (cphi_fine == 1)
74  imax++;
75  else
76  imin--;
77  }
78 
79  for (int i = imin; i <= imax; i++)
80  phi_select_word |= 1 << ((i + 18) % 18);
81  }
82 
83  return phi_select_word;
84 }
int m_IsolationCellSizePhi
Private data members (LUT parameters);.
void InitParameters()
Initialize scales, configuration parameters, alignment constants, ...
unsigned TheLookupFunction(int idx, unsigned cphi_start, unsigned cphi_fine, unsigned cphi_ofs, unsigned charge) const
The lookup function - here the functionality of the LUT is implemented.
static int getIsolationCellSizePhi()