[4] | 1 | function OCS = setorbitH(varargin) |
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| 2 | %SETORBITH - Correct the horizontal orbit |
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| 3 | % |
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| 4 | % INPUTS |
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| 5 | % 1. GoalOrbit - Goal orbit (vector or cell array (if BPM is a cell array)) |
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| 6 | % 'Golden' for the golden orbit {Default} |
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| 7 | % 'Offset' for the offset orbit |
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| 8 | % 2. BPM - BPMDevList |
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| 9 | % 3. CM - CMDevList |
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| 10 | % 4. SVDIndex - vector, maximum number, 'All', or |
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| 11 | % base on a threshold of min/max singular value {Default: 1e-3} |
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| 12 | % 5. NIter - Number of iterations {Default: 1} |
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| 13 | % (NIter can be 0, see note 1 below) |
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| 14 | % 6. BPMWeight - Weight applied to the BPMs (OCS.BPMWeight) |
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| 15 | % 7. FLAGS - 'Abs' or 'Absolute' - GoalOrbit is an absolute orbit {Default} |
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| 16 | % 'Inc' or 'Incremental' - GoalOrbit is a incremental change |
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| 17 | % 'ModelResp' - calculate the model response matrix {Default: measured response matrix} |
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| 18 | % 'SetSP' - Make the setpoint change {Default} |
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| 19 | % 'NoSetSP' - Don't set the magnets, just return the OCS |
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| 20 | % 'Display' - plot orbit information before applying the correction |
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| 21 | % 'FitRF' - Fit and change the RF frequency (use rmdisp before |
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| 22 | % calling this function to remove the dispersion orbit) |
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| 23 | % 'MeasDisp' - measure the dispersion {Default} |
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| 24 | % 'ModelDisp' - calculate the model dispersion |
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| 25 | % 'GoldenDisp' - use the golden dispersion |
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| 26 | % 'TypeFlag' - 'SOFB' {Default} or 'FOFB' |
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| 27 | % And the usual Units and Mode flags |
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| 28 | % |
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| 29 | % OUTPUTS |
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| 30 | % 1. OCS - New orbit correction structure (OCS) |
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| 31 | % |
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| 32 | % See Also setorbit, setorbitV |
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| 33 | |
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| 34 | % |
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| 35 | %% Written by Laurent S. Nadolski |
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| 36 | |
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| 37 | TypeFlag = 'SOFB'; |
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| 38 | GoldenFlag = 0; |
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| 39 | % Default BPM Family |
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| 40 | BPMFamily = 'BPMx'; |
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| 41 | BPMlist = []; |
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| 42 | |
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| 43 | % Default corrector |
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| 44 | CMlist = []; |
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| 45 | |
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| 46 | OCSFlags = []; |
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| 47 | InputFlags = []; |
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| 48 | |
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| 49 | % Defaults values |
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| 50 | OCS.NIter = 1; % Number of iteration |
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| 51 | OCS.SVDIndex = 57; % number of eigenvector for correction |
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| 52 | OCS.IncrementalFlag = 'No'; |
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| 53 | OCS.FitRF = 0; % take RF as a corrector |
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| 54 | |
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| 55 | % Input parsing |
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| 56 | for i = length(varargin):-1:1 |
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| 57 | if isstruct(varargin{i}) |
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| 58 | % Ignore structures |
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| 59 | elseif iscell(varargin{i}) |
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| 60 | % Ignore cells |
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| 61 | elseif strcmpi(varargin{i},'Golden') |
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| 62 | % Use the golden orbit |
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| 63 | GoldenFlag = 1; |
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| 64 | OCS.GoalOrbit = 'Golden'; |
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| 65 | OCSFlags = [OCSFlags varargin(i)]; |
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| 66 | varargin(i) = []; |
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| 67 | elseif strcmpi(varargin{i},'Offset') |
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| 68 | % Use the offset orbit |
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| 69 | OCS.GoalOrbit = 'Offset'; |
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| 70 | OCSFlags = [OCSFlags varargin(i)]; |
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| 71 | varargin(i) = []; |
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| 72 | elseif strcmpi(varargin{i},'Display') |
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| 73 | OCSFlags = [OCSFlags varargin(i)]; |
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| 74 | varargin(i) = []; |
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| 75 | elseif strcmpi(varargin{i},'NoDisplay') || ... |
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| 76 | strcmpi(varargin{i},'No Display') |
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| 77 | InputFlags = [InputFlags varargin(i)]; |
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| 78 | varargin(i) = []; |
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| 79 | elseif strcmpi(varargin{i},'ModelResp') |
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| 80 | OCSFlags = [OCSFlags varargin(i)]; |
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| 81 | varargin(i) = []; |
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| 82 | elseif strcmpi(varargin{i},'FitRF') |
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| 83 | OCSFlags = [OCSFlags varargin(i)]; |
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| 84 | OCS.SVDIndex = OCS.SVDIndex + 1; |
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| 85 | varargin(i) = []; |
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| 86 | elseif strcmpi(varargin{i},'ModelDisp') |
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| 87 | OCSFlags = [OCSFlags varargin(i)]; |
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| 88 | varargin(i) = []; |
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| 89 | elseif strcmpi(varargin{i},'MeasDisp') |
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| 90 | OCSFlags = [OCSFlags varargin(i)]; |
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| 91 | varargin(i) = []; |
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| 92 | elseif strcmpi(varargin{i},'GoldenDisp') |
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| 93 | OCSFlags = [OCSFlags varargin(i)]; |
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| 94 | varargin(i) = []; |
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| 95 | elseif strcmpi(varargin{i},'Inc') || strcmpi(varargin{i},'Incremental') |
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| 96 | OCSFlags = [OCSFlags varargin(i)]; |
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| 97 | varargin(i) = []; |
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| 98 | elseif strcmpi(varargin{i},'Abs') || strcmpi(varargin{i},'Absolute') |
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| 99 | OCSFlags = [OCSFlags varargin(i)]; |
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| 100 | elseif strcmpi(varargin{i},'SetSP') |
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| 101 | InputFlags = [InputFlags varargin(i)]; |
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| 102 | varargin(i) = []; |
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| 103 | elseif strcmpi(varargin{i},'NoSetSP') |
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| 104 | InputFlags = [InputFlags varargin{i}]; |
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| 105 | varargin(i) = []; |
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| 106 | elseif strcmpi(varargin{i},'Simulator') || strcmpi(varargin{i},'Model') |
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| 107 | OCSFlags = [OCSFlags varargin(i)]; |
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| 108 | InputFlags = [InputFlags varargin(i)]; |
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| 109 | varargin(i) = []; |
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| 110 | elseif strcmpi(varargin{i},'Online') |
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| 111 | OCSFlags = [OCSFlags varargin(i)]; |
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| 112 | InputFlags = [InputFlags varargin(i)]; |
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| 113 | varargin(i) = []; |
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| 114 | elseif strcmpi(varargin{i},'Manual') |
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| 115 | OCSFlags = [OCSFlags varargin(i)]; |
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| 116 | InputFlags = [InputFlags varargin(i)]; |
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| 117 | varargin(i) = []; |
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| 118 | elseif strcmpi(varargin{i},'Physics') |
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| 119 | OCSFlags = [OCSFlags varargin(i)]; |
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| 120 | InputFlags = [InputFlags varargin(i)]; |
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| 121 | varargin(i) = []; |
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| 122 | elseif strcmpi(varargin{i},'Hardware') |
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| 123 | OCSFlags = [OCSFlags varargin(i)]; |
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| 124 | InputFlags = [InputFlags varargin(i)]; |
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| 125 | varargin(i) = []; |
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| 126 | elseif strcmpi(varargin{i},'Archive') |
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| 127 | % Just remove |
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| 128 | varargin(i) = []; |
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| 129 | elseif strcmpi(varargin{i},'noarchive') |
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| 130 | % Just remove |
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| 131 | varargin(i) = []; |
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| 132 | elseif strcmpi(varargin{i},'struct') |
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| 133 | % Just remove |
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| 134 | varargin(i) = []; |
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| 135 | elseif strcmpi(varargin{i},'numeric') |
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| 136 | % Just remove |
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| 137 | varargin(i) = []; |
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| 138 | elseif strcmpi(varargin{i},'FOFB') |
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| 139 | TypeFlag = 'FOFB'; |
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| 140 | varargin(i) = []; |
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| 141 | elseif strcmpi(varargin{i},'SOFB') |
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| 142 | TypeFlag = 'SOFB'; |
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| 143 | varargin(i) = []; |
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| 144 | end |
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| 145 | end |
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| 146 | |
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| 147 | % switchard for typical orbit correction at SOLEIL |
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| 148 | switch TypeFlag |
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| 149 | case 'FOFB' |
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| 150 | % number of eigenvector for correction |
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| 151 | OCS.SVDIndex = 40; |
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| 152 | % Default corrector Family |
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| 153 | CMFamily = 'FHCOR'; |
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| 154 | case 'SOFB' |
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| 155 | % number of eigenvector for correction |
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| 156 | OCS.SVDIndex = 57; |
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| 157 | % Default corrector Family |
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| 158 | CMFamily = 'HCOR'; |
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| 159 | otherwise |
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| 160 | error('TypeFlag invalid') |
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| 161 | end |
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| 162 | |
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| 163 | % Get Goal orbit |
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| 164 | if length(varargin) >= 1 && ~GoldenFlag |
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| 165 | OCS.GoalOrbit = varargin{1}; |
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| 166 | varargin(1) = []; |
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| 167 | end |
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| 168 | |
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| 169 | % Get BPM knobs |
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| 170 | if length(varargin) >= 1 |
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| 171 | BPMlist = varargin{1}; |
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| 172 | varargin(1) = []; |
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| 173 | end |
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| 174 | |
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| 175 | % Get CM knobs |
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| 176 | if length(varargin) >= 1 |
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| 177 | CMlist = varargin{1}; |
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| 178 | varargin(1) = []; |
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| 179 | end |
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| 180 | |
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| 181 | % Get SVDIndex |
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| 182 | if length(varargin) >= 1 |
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| 183 | OCS.SVDIndex = varargin{1}; |
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| 184 | varargin(1) = []; |
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| 185 | end |
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| 186 | |
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| 187 | % Get NIter |
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| 188 | if length(varargin) >= 1 |
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| 189 | OCS.NIter = varargin{1}; |
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| 190 | varargin(1) = []; |
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| 191 | end |
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| 192 | |
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| 193 | % Get BPMWeight |
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| 194 | if length(varargin) >= 1 |
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| 195 | OCS.BPMWeight = varargin{1}; |
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| 196 | varargin(1) = []; |
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| 197 | end |
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| 198 | |
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| 199 | |
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| 200 | %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
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| 201 | % Build up Orbit correction Structures % |
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| 202 | % for setorbit programme : OCSx and OCSy% |
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| 203 | %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
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| 204 | % ORBIT CORRECTION STRUCTURE (OCS) |
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| 205 | % OCS.BPM (data structure) |
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| 206 | % OCS.CM (data structure) |
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| 207 | % OCS.GoalOrbit |
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| 208 | % OCS.NIter |
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| 209 | % OCS.SVDIndex |
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| 210 | % OCS.IncrementalFlag = 'Yes'/'No' |
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| 211 | % OCS.BPMWeight |
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| 212 | % OCS.Flags = { 'FitRF' , etc. } |
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| 213 | |
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| 214 | % Horizontal plane |
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| 215 | OCS.BPM = getx(BPMlist, 'struct'); |
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| 216 | |
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| 217 | if ~isfield(OCS, 'GoalOrbit')|| any(isnan(OCS.GoalOrbit)) |
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| 218 | Xgoal = getgolden(BPMFamily, BPMlist); |
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| 219 | OCS.GoalOrbit = Xgoal; |
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| 220 | end |
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| 221 | |
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| 222 | OCS.CM = getsp(CMFamily, CMlist, 'struct'); |
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| 223 | OCS.Flags = OCSFlags; |
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| 224 | |
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| 225 | if isempty(InputFlags) |
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| 226 | OCS = setorbit(OCS); |
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| 227 | else |
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| 228 | OCS = setorbit(OCS,InputFlags); |
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| 229 | end |
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