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Diffstat (limited to 'source/it/helpcontent2/source/text/scalc/01.po')
| -rw-r--r-- | source/it/helpcontent2/source/text/scalc/01.po | 1025 |
1 files changed, 886 insertions, 139 deletions
diff --git a/source/it/helpcontent2/source/text/scalc/01.po b/source/it/helpcontent2/source/text/scalc/01.po index 9b94c9bdd10..78828da6329 100644 --- a/source/it/helpcontent2/source/text/scalc/01.po +++ b/source/it/helpcontent2/source/text/scalc/01.po @@ -3,7 +3,7 @@ msgid "" msgstr "" "Project-Id-Version: \n" "Report-Msgid-Bugs-To: https://bugs.libreoffice.org/enter_bug.cgi?product=LibreOffice&bug_status=UNCONFIRMED&component=UI\n" -"POT-Creation-Date: 2020-05-05 14:59+0200\n" +"POT-Creation-Date: 2020-05-27 11:43+0200\n" "PO-Revision-Date: 2020-03-02 09:15+0000\n" "Last-Translator: Valter Mura <valtermura@gmail.com>\n" "Language-Team: Italian <https://weblate.documentfoundation.org/projects/libo_help-master/textscalc01/it/>\n" @@ -5830,14 +5830,14 @@ msgctxt "" msgid "<ahelp hid=\"HID_AAI_FUNC_AMORDEGRC\">Calculates the amount of depreciation for a settlement period as degressive amortization.</ahelp> Unlike AMORLINC, a depreciation coefficient that is independent of the depreciable life is used here." msgstr "<ahelp hid=\"HID_AAI_FUNC_AMORDEGRC\">Calcola l'ammortamento di un periodo contabile come ammortamento degressivo.</ahelp> Diversamente dalla funzione AMMORT.PER, in questa funzione viene utilizzato un coefficiente di ammortamento indipendente dalla vita utile." -#. i8TkC +#. DEtMa #: 04060103.xhp msgctxt "" "04060103.xhp\n" "par_id3147427\n" "help.text" -msgid "AMORDEGRC(Cost; DatePurchased; FirstPeriod; Salvage; Period; Rate; Basis)" -msgstr "AMMORT.DEGR(Costo; Data; Primo periodo; Valore residuo; Periodo; Tasso interesse; Base)" +msgid "AMORDEGRC(Cost; DatePurchased; FirstPeriod; Salvage; Period; Rate[; Basis])" +msgstr "" #. bA2pT #: 04060103.xhp @@ -5920,14 +5920,14 @@ msgctxt "" msgid "<ahelp hid=\"HID_AAI_FUNC_AMORLINC\">Calculates the amount of depreciation for a settlement period as linear amortization. If the capital asset is purchased during the settlement period, the proportional amount of depreciation is considered.</ahelp>" msgstr "<ahelp hid=\"HID_AAI_FUNC_AMORLINC\">Calcola l'ammortamento di un periodo contabile come ammortamento lineare. Se il bene d'investimento viene acquistato durante il periodo contabile, verrà presa in considerazione la quota proporzionale di ammortamento.</ahelp>" -#. 3n4Kb +#. jD9JZ #: 04060103.xhp msgctxt "" "04060103.xhp\n" "par_id3147363\n" "help.text" -msgid "AMORLINC(Cost; DatePurchased; FirstPeriod; Salvage; Period; Rate; Basis)" -msgstr "AMMORT.PER(Costo; Data; Primo periodo; Valore residuo; Periodo; Tasso interesse; Base)" +msgid "AMORLINC(Cost; DatePurchased; FirstPeriod; Salvage; Period; Rate[; Basis])" +msgstr "" #. PsFjE #: 04060103.xhp @@ -6019,14 +6019,14 @@ msgctxt "" msgid "<ahelp hid=\"HID_AAI_FUNC_ACCRINT\">Calculates the accrued interest of a security in the case of periodic payments.</ahelp>" msgstr "<ahelp hid=\"HID_AAI_FUNC_ACCRINT\">Calcola gli interessi maturati (ratei) di un titolo a pagamenti periodici.</ahelp>" -#. oHnfa +#. yGdCf #: 04060103.xhp msgctxt "" "04060103.xhp\n" "par_id3159092\n" "help.text" -msgid "ACCRINT(Issue; FirstInterest; Settlement; Rate; Par; Frequency; Basis)" -msgstr "INT.MATURATO(Emissione; Primo Interesse; Liquidazione; Tasso interesse nominale; Valore nominale; Frequenza; Base)" +msgid "ACCRINT(Issue; FirstInterest; Settlement; Rate; [Par]; Frequency[; Basis])" +msgstr "" #. PKp6i #: 04060103.xhp @@ -6127,14 +6127,14 @@ msgctxt "" msgid "<ahelp hid=\"HID_AAI_FUNC_ACCRINTM\">Calculates the accrued interest of a security in the case of one-off payment at the settlement date.</ahelp>" msgstr "<ahelp hid=\"HID_AAI_FUNC_ACCRINTM\">Calcola gli interessi maturati (ratei) di un titolo a pagamento unico alla data di scadenza.</ahelp>" -#. uRZWP +#. zFkiX #: 04060103.xhp msgctxt "" "04060103.xhp\n" "par_id3147074\n" "help.text" -msgid "ACCRINTM(Issue; Settlement; Rate; Par; Basis)" -msgstr "INT.MATURATO.SCAD(Emissione; Liquidazione; Tasso interesse nominale; Valore nominale; Base)" +msgid "ACCRINTM(Issue; Settlement; Rate[; Par][; Basis])" +msgstr "" #. pTobQ #: 04060103.xhp @@ -6334,14 +6334,14 @@ msgctxt "" msgid "Enter these values either as numbers, expressions or references. If, for example, interest is paid annually at 8%, but you want to use month as your period, enter 8%/12 under <emph>Rate</emph> and <item type=\"productname\">%PRODUCTNAME</item> Calc with automatically calculate the correct factor." msgstr "Si possono digitare i valori come numeri, espressioni o riferimenti. Se, ad esempio, ricevete annualmente l'8% di interessi, ma desiderate digitare come periodo il mese, digitate 8%/12 nel campo <emph>Tasso interesse</emph>. <item type=\"productname\">%PRODUCTNAME</item> Calc è in grado di calcolare automaticamente il fattore corretto." -#. BVQTK +#. uiDaD #: 04060103.xhp msgctxt "" "04060103.xhp\n" "par_id3150395\n" "help.text" -msgid "PV(Rate; NPer; Pmt; FV; Type)" -msgstr "VA(Tasso interesse; Numero rate; Rata; Valore futuro; Tipo)" +msgid "PV(Rate; NPer; Pmt[; FV][; Type])" +msgstr "" #. JrCA6 #: 04060103.xhp @@ -7360,14 +7360,14 @@ msgctxt "" msgid "Use this form of depreciation if you require a higher initial depreciation value as opposed to linear depreciation. The depreciation value gets less with each period and is usually used for assets whose value loss is higher shortly after purchase (for example, vehicles, computers). Please note that the book value will never reach zero under this calculation type." msgstr "Potete utilizzare questa forma di ammortamento per definire un valore più alto all'inizio dell'ammortamento, in contrapposizione all'ammortamento lineare. Il valore di ammortamento si riduce da un periodo di ammortamento all'altro. Questa forma di ammortamento viene utilizzata per beni commerciali, la cui perdita di valore raggiunge il tetto massimo dopo l'acquisto (ad esempio, autovetture, computer). Ricordate che con questa forma di calcolo il valore contabile non diventa mai zero." -#. GnhjW +#. EV3DT #: 04060103.xhp msgctxt "" "04060103.xhp\n" "par_id3166452\n" "help.text" -msgid "DDB(Cost; Salvage; Life; Period; Factor)" -msgstr "AMMORT(Costo; Valore residuo; Vita utile; Periodo; Fattore)" +msgid "DDB(Cost; Salvage; Life; Period[; Factor])" +msgstr "" #. VKnDB #: 04060103.xhp @@ -7468,14 +7468,14 @@ msgctxt "" msgid "This form of depreciation is used if you want to get a higher depreciation value at the beginning of the depreciation (as opposed to linear depreciation). The depreciation value is reduced with every depreciation period by the depreciation already deducted from the initial cost." msgstr "Potete utilizzare questa forma di ammortamento se (a differenza dell'ammortamento lineare) desiderate definire un valore più alto all'inizio dell'ammortamento. Per ogni periodo di ammortamento il valore di ammortamento si riduce degli ammortamenti già detratti dal costo iniziale." -#. zaXLw +#. EDXF8 #: 04060103.xhp msgctxt "" "04060103.xhp\n" "par_id3153349\n" "help.text" -msgid "DB(Cost; Salvage; Life; Period; Month)" -msgstr "AMMORT.FISSO(Costo; Valore residuo; Vita utile; Periodo; Mese)" +msgid "DB(Cost; Salvage; Life; Period[; Month])" +msgstr "" #. caSta #: 04060103.xhp @@ -7585,14 +7585,14 @@ msgctxt "" msgid "If the payments take place at irregular intervals, use the <link href=\"text/scalc/01/04060118.xhp#xirr\" name=\"XIRR\">XIRR</link> function." msgstr "Se i pagamenti avvengono a intervalli irregolari, usate la funzione <link href=\"text/scalc/01/04060118.xhp#xirr\" name=\"XIRR\">XIRR</link>." -#. CCfhc +#. zWTAW #: 04060103.xhp msgctxt "" "04060103.xhp\n" "par_id3155427\n" "help.text" -msgid "IRR(Values; Guess)" -msgstr "TIR.COST(Valori; Ipotesi)" +msgid "IRR(Values[; Guess])" +msgstr "" #. o9R77 #: 04060103.xhp @@ -9448,14 +9448,14 @@ msgctxt "" msgid "<ahelp hid=\"HID_FUNC_ZELLE\">Returns information on address, formatting or contents of a cell.</ahelp>" msgstr "<ahelp hid=\"HID_FUNC_ZELLE\">Restituisce informazioni sull'indirizzo, sulla formattazione o sul contenuto di una cella.</ahelp>" -#. P9UHc +#. RWBPC #: 04060104.xhp msgctxt "" "04060104.xhp\n" "par_id3147355\n" "help.text" -msgid "CELL(\"InfoType\"; Reference)" -msgstr "CELLA(\"Tipo di informazioni\"; Riferimento)" +msgid "CELL(\"InfoType\"[; Reference])" +msgstr "" #. wjBKt #: 04060104.xhp @@ -10195,14 +10195,14 @@ msgctxt "" msgid "<ahelp hid=\"HID_FUNC_WENN\">Specifies a logical test to be performed.</ahelp>" msgstr "<ahelp hid=\"HID_FUNC_WENN\">Specifica un test logico da eseguire.</ahelp>" -#. QQdtE +#. qT9mo #: 04060105.xhp msgctxt "" "04060105.xhp\n" "par_id3154558\n" "help.text" -msgid "IF(Test; ThenValue; OtherwiseValue)" -msgstr "SE(Test; Se vero; Se falso)" +msgid "IF(Test[; ThenValue][; OtherwiseValue])" +msgstr "" #. JnjcT #: 04060105.xhp @@ -63061,14 +63061,14 @@ msgctxt "" msgid "<ahelp hid=\"HID_FUNC_WOCHENTAG\">Returns the day of the week for the given date value.</ahelp> The day is returned as an integer between 1 (Sunday) and 7 (Saturday) if no type or type=1 is specified. For other types, see the table below." msgstr "<ahelp hid=\"HID_FUNC_WOCHENTAG\">Calcola il giorno della settimana del valore di data indicato.</ahelp> Il giorno viene restituito come numero intero compreso tra 1 (Domenica) e 7 (Sabato) se non si indica alcun tipo o Tipo=1. Per altri tipi, consultate la tabella sottostante." -#. Q6BXr +#. EDmeN #: func_weekday.xhp msgctxt "" "func_weekday.xhp\n" "par_id3149033\n" "help.text" -msgid "WEEKDAY(Number; Type)" -msgstr "GIORNO.SETTIMANA(Numero; Tipo)" +msgid "WEEKDAY(Number[; Type])" +msgstr "" #. mcF52 #: func_weekday.xhp @@ -63808,14 +63808,14 @@ msgctxt "" msgid "<ahelp hid=\".\">Returns the date calculated from a start date with a specific number of work days, before or after the start date. The calculation can include week-ends and holidays as non-working days.</ahelp>" msgstr "" -#. RRr3i +#. ZFLiY #: func_workday.intl.xhp msgctxt "" "func_workday.intl.xhp\n" "par_id241020160008306838\n" "help.text" -msgid "WORKDAY.INTL(StartDate; Days; Weekend; Holidays)" -msgstr "GIORNO.LAVORATIVO.INTL(Data iniziale; Giorni; Fine settimana; Vacanze)" +msgid "WORKDAY.INTL(StartDate; Days[; Weekend][; Holidays])" +msgstr "" #. gJg5G #: func_workday.intl.xhp @@ -63979,14 +63979,14 @@ msgctxt "" msgid "<ahelp hid=\"HID_AAI_FUNC_WORKDAY\"> The result is a date number that can be formatted as a date. You then see the date of a day that is a certain number of <emph>workdays</emph> away from the <emph>start date</emph>.</ahelp>" msgstr "<ahelp hid=\"HID_AAI_FUNC_WORKDAY\"> Il risultato è un numero seriale che si può formattare come data. Si ricava la data di un giorno che dista un certo numero di <emph>giorni lavorativi</emph> dalla <emph>data iniziale</emph>.</ahelp>" -#. gSoD4 +#. fo6sg #: func_workday.xhp msgctxt "" "func_workday.xhp\n" "par_id3154844\n" "help.text" -msgid "WORKDAY(StartDate; Days; Holidays)" -msgstr "GIORNO.LAVORATIVO(Data iniziale; Giorni; Vacanze)" +msgid "WORKDAY(StartDate; Days[; Holidays])" +msgstr "" #. 35EG5 #: func_workday.xhp @@ -64168,14 +64168,14 @@ msgctxt "" msgid "<ahelp hid=\"HID_AAI_FUNC_YEARFRAC\">The result is the number of the years (including fractional part) between <emph>StartDate</emph> and <emph>EndDate</emph>.</ahelp>" msgstr "<ahelp hid=\"HID_AAI_FUNC_YEARFRAC\">Il risultato è il numero degli anni (incluso la parte frazionaria) tra la <emph>data iniziale</emph> e la <emph>data finale</emph>.</ahelp>" -#. C3aRF +#. AASCJ #: func_yearfrac.xhp msgctxt "" "func_yearfrac.xhp\n" "par_id3155823\n" "help.text" -msgid "YEARFRAC(StartDate; EndDate; Basis)" -msgstr "FRAZIONE.ANNO(Data iniziale; Data finale; Base)" +msgid "YEARFRAC(StartDate; EndDate[; Basis])" +msgstr "" #. JAA8u #: func_yearfrac.xhp @@ -64339,14 +64339,14 @@ msgctxt "" msgid "Solver" msgstr "Risolutore" -#. i2Coz +#. pDGKS #: solver.xhp msgctxt "" "solver.xhp\n" "bm_id7654652\n" "help.text" -msgid "<bookmark_value>goal seeking;solver</bookmark_value> <bookmark_value>what if operations;solver</bookmark_value> <bookmark_value>back-solving</bookmark_value> <bookmark_value>solver</bookmark_value>" -msgstr "<bookmark_value>Ricerca obiettivo;risolutore</bookmark_value> <bookmark_value>Ipotetica, analisi;risolutore</bookmark_value> <bookmark_value>Back-solving</bookmark_value> <bookmark_value>Risolutore</bookmark_value>" +msgid "<bookmark_value>goal seeking;solver</bookmark_value> <bookmark_value>what if operations;solver</bookmark_value> <bookmark_value>back-solving</bookmark_value> <bookmark_value>solver</bookmark_value> <bookmark_value>mathematical programming;solver for Calc</bookmark_value> <bookmark_value>mathematical optimization;solver for Calc</bookmark_value> <bookmark_value>operations research;solver for Calc</bookmark_value>" +msgstr "" #. cBvDd #: solver.xhp @@ -64357,131 +64357,230 @@ msgctxt "" msgid "<variable id=\"solver\"><link href=\"text/scalc/01/solver.xhp\">Solver</link></variable>" msgstr "<variable id=\"solver\"><link href=\"text/scalc/01/solver.xhp\">Risolutore</link></variable>" -#. VvLwc +#. JGk9s #: solver.xhp msgctxt "" "solver.xhp\n" "par_id9210486\n" "help.text" -msgid "<ahelp hid=\".\">Opens the Solver dialog. A solver allows you to solve equations with multiple unknown variables by goal-seeking methods.</ahelp>" -msgstr "<ahelp hid=\".\">Apre la finestra di dialogo del Risolutore. Il risolutore permette di risolvere un sistema di equazioni con variabili multiple non note tramite i metodi della ricerca operativa.</ahelp>" +msgid "<ahelp hid=\".\">Opens the Solver dialog. A solver allows you to solve mathematical problems with multiple unknown variables and a set of constraints on the variables by goal-seeking methods.</ahelp>" +msgstr "" + +#. wszcE +#: solver.xhp +msgctxt "" +"solver.xhp\n" +"hd_id21589912365601\n" +"help.text" +msgid "Solver settings" +msgstr "" + +#. 36mEY +#: solver.xhp +msgctxt "" +"solver.xhp\n" +"par_id501589912905479\n" +"help.text" +msgid "The dialog settings are retained until you close the current document." +msgstr "" -#. ivjGw +#. GgVk7 +#: solver.xhp +msgctxt "" +"solver.xhp\n" +"hd_id121589913023217\n" +"help.text" +msgid "Target Cell" +msgstr "" + +#. EsgHG #: solver.xhp msgctxt "" "solver.xhp\n" "par_id8538773\n" "help.text" -msgid "<ahelp hid=\".\" visibility=\"hidden\">Enter or click the cell reference of the target cell. This field takes the address of the cell whose value is to be optimized.</ahelp>" -msgstr "<ahelp hid=\".\" visibility=\"hidden\">Inserisci o seleziona la cella di riferimento della cella di destinazione. Questo campo contiene l'indirizzo della cella il cui valore deve essere ottimizzato.</ahelp>" +msgid "<ahelp hid=\".\">Enter or click the cell reference of the target cell. This field takes the address of the cell whose value is to be optimized.</ahelp>" +msgstr "" + +#. 9j2m7 +#: solver.xhp +msgctxt "" +"solver.xhp\n" +"hd_id441589913036601\n" +"help.text" +msgid "Optimize results to" +msgstr "" -#. pcopF +#. U8Ttv #: solver.xhp msgctxt "" "solver.xhp\n" "par_id7564012\n" "help.text" -msgid "<ahelp hid=\".\" visibility=\"hidden\">Try to solve the equation for a maximum value of the target cell.</ahelp>" -msgstr "<ahelp hid=\".\" visibility=\"hidden\">Cerca di risolvere l'equazione per massimizzare il valore della cella di destinazione.</ahelp>" +msgid "<ahelp hid=\".\"><emph>Maximum:</emph> Try to solve the equation for a maximum value of the target cell.</ahelp>" +msgstr "" -#. MBtDo +#. N5C2U #: solver.xhp msgctxt "" "solver.xhp\n" "par_id1186254\n" "help.text" -msgid "<ahelp hid=\".\" visibility=\"hidden\">Try to solve the equation for a minimum value of the target cell.</ahelp>" -msgstr "<ahelp hid=\".\" visibility=\"hidden\">Cerca di risolvere un'equazione per la ricerca del minimo della cella di destinazione.</ahelp>" +msgid "<ahelp hid=\".\"><emph>Minimum:</emph> Try to solve the equation for a minimum value of the target cell.</ahelp>" +msgstr "" -#. 7KTjo +#. JAo82 #: solver.xhp msgctxt "" "solver.xhp\n" "par_id7432477\n" "help.text" -msgid "<ahelp hid=\".\" visibility=\"hidden\">Try to solve the equation to approach a given value of the target cell.</ahelp>" -msgstr "<ahelp hid=\".\" visibility=\"hidden\">Cerca di risolvere l'equazione per approssimarsi al valore dato nella cella di destinazione.</ahelp>" +msgid "<ahelp hid=\".\"><emph>Value of:</emph> Try to solve the equation to approach a given value of the target cell.</ahelp>" +msgstr "" -#. xAB7a +#. 5BC94 #: solver.xhp msgctxt "" "solver.xhp\n" "par_id7141026\n" "help.text" -msgid "<ahelp hid=\".\" visibility=\"hidden\">Enter the value or a cell reference.</ahelp>" -msgstr "<ahelp hid=\".\" visibility=\"hidden\">Inserisci il valore o un riferimento a una cella.</ahelp>" +msgid "<ahelp hid=\".\">Enter the value or a cell reference in the text field.</ahelp>" +msgstr "" -#. AkKFT +#. KMA6B +#: solver.xhp +msgctxt "" +"solver.xhp\n" +"hd_id761589914010085\n" +"help.text" +msgid "By Changing Cells" +msgstr "" + +#. VvrzV #: solver.xhp msgctxt "" "solver.xhp\n" "par_id8531449\n" "help.text" -msgid "<ahelp hid=\".\" visibility=\"hidden\">Enter the cell range that can be changed.</ahelp>" -msgstr "<ahelp hid=\".\" visibility=\"hidden\">Specifica l'intervallo di celle che si possono variare.</ahelp>" +msgid "<ahelp hid=\".\">Enter the cell range that can be changed.</ahelp> These are the variables of the equations." +msgstr "" + +#. if7S9 +#: solver.xhp +msgctxt "" +"solver.xhp\n" +"hd_id671589914927836\n" +"help.text" +msgid "Limiting Conditions" +msgstr "" + +#. QQCWC +#: solver.xhp +msgctxt "" +"solver.xhp\n" +"par_id421589915278885\n" +"help.text" +msgid "Add the set of constraints for the mathematical problem. Each constraint is represented by a cell reference (a variable), an operator, and a value." +msgstr "" -#. o7jUm +#. YApta #: solver.xhp msgctxt "" "solver.xhp\n" "par_id9183935\n" "help.text" -msgid "<ahelp hid=\".\" visibility=\"hidden\">Enter a cell reference.</ahelp>" -msgstr "<ahelp hid=\".\" visibility=\"hidden\">Inserisci un riferimento a una cella.</ahelp>" +msgid "<ahelp hid=\".\"><emph>Cell reference:</emph> Enter a cell reference of the variable.</ahelp>" +msgstr "" + +#. eyxy9 +#: solver.xhp +msgctxt "" +"solver.xhp\n" +"par_id1939451\n" +"help.text" +msgid "<ahelp hid=\".\">Click the Shrink button to shrink or restore the dialog. You can click or select cells in the sheet. You can enter a cell reference manually in the input box.</ahelp>" +msgstr "" -#. 7s5ZD +#. CWWbZ #: solver.xhp msgctxt "" "solver.xhp\n" "par_id946684\n" "help.text" -msgid "<ahelp hid=\".\" visibility=\"hidden\">Select an operator from the list.</ahelp>" -msgstr "<ahelp hid=\".\" visibility=\"hidden\">Seleziona un operatore dall'elenco.</ahelp>" +msgid "<ahelp hid=\".\"><emph>Operator:</emph> Select an operator from the list.</ahelp> Use Binary operator to restrict your variable to 0 or 1. Use the Integer operator to restrict your variable to take only integer values (no decimal part)." +msgstr "" -#. Gj2Eo +#. CtpNG #: solver.xhp msgctxt "" "solver.xhp\n" "par_id9607226\n" "help.text" -msgid "<ahelp hid=\".\" visibility=\"hidden\">Enter a value or a cell reference.</ahelp>" -msgstr "<ahelp hid=\".\" visibility=\"hidden\">Inserisci un valore o un riferimento a una cella.</ahelp>" +msgid "<ahelp hid=\".\"><emph>Value:</emph> Enter a value or a cell reference.</ahelp> This field is ignored when the operator is Binary or Integer." +msgstr "" -#. 2iEku +#. GzohM #: solver.xhp msgctxt "" "solver.xhp\n" -"par_id1939451\n" +"par_id9038972\n" "help.text" -msgid "<ahelp hid=\".\" visibility=\"hidden\">Click to shrink or restore the dialog. You can click or select cells in the sheet. You can enter a cell reference manually in the input box.</ahelp>" -msgstr "<ahelp hid=\".\" visibility=\"hidden\">Fai clic per minimizzare o ripristinare la finestra di dialogo. Puoi fare clic su o selezionare celle nel foglio. Puoi scrivere manualmente un riferimento a una cella nella casella di testo.</ahelp>" +msgid "<ahelp hid=\".\"><emph>Remove button:</emph> Click to remove the row from the list. Any rows from below this row move up.</ahelp>" +msgstr "" -#. FvWnk +#. H3FEH #: solver.xhp msgctxt "" "solver.xhp\n" -"par_id9038972\n" +"par_id511589916338595\n" "help.text" -msgid "<ahelp hid=\".\" visibility=\"hidden\">Click to remove the row from the list. Any rows from below this row move up.</ahelp>" -msgstr "<ahelp hid=\".\" visibility=\"hidden\">Fai un clic per eliminare la riga dall'elenco. Ogni riga sottostante si sposta sopra.</ahelp>" +msgid "You can set multiple conditions for a variable. For example, a variable in cell A1 that must be an integer less than 10. In that case, set two limiting conditions for A1." +msgstr "" -#. GqxKL +#. B4DtG +#: solver.xhp +msgctxt "" +"solver.xhp\n" +"hd_id441589917031236\n" +"help.text" +msgid "Options" +msgstr "" + +#. AheHK #: solver.xhp msgctxt "" "solver.xhp\n" "par_id2423780\n" "help.text" -msgid "<ahelp hid=\".\" visibility=\"hidden\">Opens the Options dialog.</ahelp>" -msgstr "<ahelp hid=\".\" visibility=\"hidden\">Apre la finestra Opzioni.</ahelp>" +msgid "<ahelp hid=\".\">Opens the <link href=\"text/scalc/01/solver_options.xhp#solveroptionsh1\" name=\"solveroptions\">Solver Options</link> dialog.</ahelp>" +msgstr "" + +#. jDGPG +#: solver.xhp +msgctxt "" +"solver.xhp\n" +"par_id221589917833431\n" +"help.text" +msgid "The <emph>Solver Options</emph> dialog let you select the different solver algorithms for either linear and non-linear problems and set their solving parameters." +msgstr "" -#. ssqdF +#. 8YGDA +#: solver.xhp +msgctxt "" +"solver.xhp\n" +"hd_id771589917064147\n" +"help.text" +msgid "Solve" +msgstr "" + +#. jFwTt #: solver.xhp msgctxt "" "solver.xhp\n" "par_id2569658\n" "help.text" -msgid "<ahelp hid=\".\" visibility=\"hidden\">Click to solve the equation with the current settings. The dialog settings are retained until you close the current document.</ahelp>" -msgstr "<ahelp hid=\".\" visibility=\"hidden\">Fai clic per risolvere l'equazione con le impostazioni correnti. Le impostazioni vengono mantenute finché non chiudi il documento corrente.</ahelp>" +msgid "<ahelp hid=\".\">Click to solve the problem with the current settings. The dialog settings are retained until you close the current document.</ahelp>" +msgstr "" #. VFnjv #: solver.xhp @@ -64519,122 +64618,770 @@ msgctxt "" msgid "You can define a series of limiting conditions that set constraints for some cells. For example, you can set the constraint that one of the variables or cells must not be bigger than another variable, or not bigger than a given value. You can also define the constraint that one or more variables must be integers (values without decimals), or binary values (where only 0 and 1 are allowed)." msgstr "Potete definire una serie di condizioni limitative (vincoli) che impostano valori costanti per alcune celle. Ad esempio, potete impostare il vincolo che una delle variabili o celle non sia maggiore di un'altra variabile o di un valore dato. Potete anche definire il vincolo che una o più variabili siano numeri interi (valori senza decimali) o valori binari (solo 0 e 1 sono ammessi)." -#. bZZnv +#. irGoh #: solver.xhp msgctxt "" "solver.xhp\n" -"par_id5323953\n" +"hd_id0603200910430882\n" "help.text" -msgid "The default solver engine supports only linear equations." -msgstr "Il motore del risolutore come impostazione predefinita supporta solo equazioni lineari." +msgid "Using Non-Linear solvers" +msgstr "" -#. dAcyJ +#. UTzzV +#: solver.xhp +msgctxt "" +"solver.xhp\n" +"par_id0603200910430845\n" +"help.text" +msgid "Regardless whether you use DEPS or SCO, you start by going to <menuitem>Tools - Solver</menuitem> and set the Cell to be optimized, the direction to go (minimization, maximization) and the cells to be modified to reach the goal. Then you go to the Options and specify the solver to be used and if necessary adjust the according <link href=\"text/scalc/01/solver_options.xhp\">parameters</link>." +msgstr "" + +#. gJGz2 +#: solver.xhp +msgctxt "" +"solver.xhp\n" +"par_id0603200910430821\n" +"help.text" +msgid "There is also a list of constraints you can use to restrict the possible range of solutions or to penalize certain conditions. However, in case of the evolutionary solvers DEPS and SCO, these constraints are also used to specify bounds on the variables of the problem. Due to the random nature of the algorithms, it is <emph>highly recommended</emph> to do so and give upper (and in case \"Assume Non-Negative Variables\" is turned off also lower) bounds for all variables. They don't have to be near the actual solution (which is probably unknown) but should give a rough indication of the expected size (0 ≤ var ≤ 1 or maybe -1000000 ≤ var ≤ 1000000)." +msgstr "" + +#. GFZqJ +#: solver.xhp +msgctxt "" +"solver.xhp\n" +"par_id0603200910430873\n" +"help.text" +msgid "Bounds are specified by selecting one or more variables (as range) on the left side and entering a numerical value (not a cell or a formula) on the right side. That way you can also choose one or more variables to be <emph>Integer</emph> or <emph>Binary</emph> only." +msgstr "" + +#. ZUeCC +#: solver.xhp +msgctxt "" +"solver.xhp\n" +"par_id271589981559367\n" +"help.text" +msgid "<link href=\"https://wiki.documentfoundation.org/\" name=\"wikipage\">Wiki page on solvers and theirs algorithms</link>" +msgstr "" + +#. akxrP #: solver_options.xhp msgctxt "" "solver_options.xhp\n" "tit\n" "help.text" -msgid "Options" -msgstr "Opzioni" +msgid "Solver Options" +msgstr "" + +#. UBnZK +#: solver_options.xhp +msgctxt "" +"solver_options.xhp\n" +"bm_id291590166034871\n" +"help.text" +msgid "<bookmark_value>solver for Calc;options</bookmark_value>" +msgstr "" -#. 2p755 +#. vZkr3 #: solver_options.xhp msgctxt "" "solver_options.xhp\n" "hd_id2794274\n" "help.text" -msgid "Options" -msgstr "Opzioni" +msgid "<variable id=\"solveroptionsh1\"><link href=\"text/scalc/01/solver_options.xhp\" name=\"Solver Options\">Solver Options</link></variable>" +msgstr "" -#. 4v4nE +#. LHgS8 #: solver_options.xhp msgctxt "" "solver_options.xhp\n" -"par_id6776940\n" +"par_id3163853\n" "help.text" -msgid "The Options dialog for the <link href=\"text/scalc/01/solver.xhp\">Solver</link> is used to set some options." -msgstr "La finestra di dialogo Opzioni del <link href=\"text/scalc/01/solver.xhp\">Risolutore</link> si usa per impostare alcune opzioni." +msgid "Use the Options dialog to configure the solver engine." +msgstr "" + +#. mFtPo +#: solver_options.xhp +msgctxt "" +"solver_options.xhp\n" +"par_id9999694\n" +"help.text" +msgid "Click OK to accept the changes and to go back to the <link href=\"text/scalc/01/solver.xhp\">Solver</link> dialog." +msgstr "Fate clic su OK per accettare le modifiche e ritornare alla finestra di dialogo del <link href=\"text/scalc/01/solver.xhp\">Risolutore</link>." -#. 8D7tG +#. gE7WZ +#: solver_options.xhp +msgctxt "" +"solver_options.xhp\n" +"hd_id581589922716672\n" +"help.text" +msgid "Solver engine" +msgstr "" + +#. A7MrG #: solver_options.xhp msgctxt "" "solver_options.xhp\n" "par_id393993\n" "help.text" -msgid "<ahelp hid=\".\" visibility=\"hidden\">Select a solver engine. The listbox is disabled if only one solver engine is installed. Solver engines can be installed as extensions.</ahelp>" -msgstr "<ahelp hid=\".\" visibility=\"hidden\">Seleziona un motore per il risolutore. L'elenco a discesa è disabilitato se è installato un solo motore. I motori del risolutore possono essere installati come estensioni.</ahelp>" +msgid "<ahelp hid=\".\">Select a solver engine. The listbox is disabled if only one solver engine is installed.</ahelp>" +msgstr "" -#. JuBPY +#. NMHJR #: solver_options.xhp msgctxt "" "solver_options.xhp\n" -"par_id5871761\n" +"par_id221589959855748\n" "help.text" -msgid "<ahelp hid=\".\" visibility=\"hidden\">Configure the current solver.</ahelp>" -msgstr "<ahelp hid=\".\" visibility=\"hidden\">Configura il risolutore corrente.</ahelp>" +msgid "You can install more solver engines as extensions, if available. Open <menuitem>Tools - Extension Manager</menuitem> and browse to the Extensions web site to search for extensions." +msgstr "" -#. 9ATtL +#. QtDyE #: solver_options.xhp msgctxt "" "solver_options.xhp\n" -"par_id6531266\n" +"hd_id711589922750833\n" "help.text" -msgid "<ahelp hid=\".\" visibility=\"hidden\">If the current entry in the Settings listbox allows you to edit a value, you can click the Edit button. A dialog opens where you can change the value.</ahelp>" -msgstr "<ahelp hid=\".\" visibility=\"hidden\">Se il valore corrente nelle Opzioni permette la modifica di un valore, puoi fare clic sul pulsante Modifica. Si apre una finestra di dialogo in cui modificare il valore.</ahelp>" +msgid "Settings" +msgstr "" -#. yRRMt +#. ncgjf #: solver_options.xhp msgctxt "" "solver_options.xhp\n" -"par_id3912778\n" +"par_id130619\n" "help.text" -msgid "<ahelp hid=\".\" visibility=\"hidden\">Enter or change the value.</ahelp>" -msgstr "<ahelp hid=\".\" visibility=\"hidden\">Inserisci o modifica il valore.</ahelp>" +msgid "Configure the current solver. In the Settings box, check all settings that you want to use for the current goal seeking operation. If the current option offers different values, the Edit button is enabled. Click <emph>Edit</emph> to open a dialog where you can change the value." +msgstr "" -#. FdSQu +#. DPYew #: solver_options.xhp msgctxt "" "solver_options.xhp\n" -"par_id3163853\n" +"hd_id481589922813764\n" "help.text" -msgid "Use the Options dialog to configure the current solver engine." -msgstr "Utilizzate la finestra di dialogo Opzioni per configurare il motore corrente del risolutore." +msgid "Edit" +msgstr "" -#. edT9Q +#. XZbDB #: solver_options.xhp msgctxt "" "solver_options.xhp\n" -"par_id121158\n" +"par_id6531266\n" "help.text" -msgid "You can install more solver engines as extensions, if available. Open Tools - Extension Manager and browse to the Extensions web site to search for extensions." -msgstr "Potete installare più motori del risolutore, se disponibili. Fate clic su Strumenti - Gestione estensioni e connettetevi al sito web delle estensioni per trovarle." +msgid "<ahelp hid=\".\">If the current entry in the Settings listbox allows you to edit a value, you can click the Edit button. A dialog opens where you can change the value.</ahelp>" +msgstr "" -#. YGbpY +#. JzS8w #: solver_options.xhp msgctxt "" "solver_options.xhp\n" -"par_id3806878\n" +"hd_id331589923158248\n" "help.text" -msgid "Select the solver engine to use and to configure from the listbox. The listbox is disabled if only one solver engine is installed." -msgstr "Selezionare il motore del risolutore da utilizzare e configurare. L'elenco a discesa è disabilitato se è installato un solo motore." +msgid "Edit settings spin box" +msgstr "" -#. kk9QD +#. B4WMx #: solver_options.xhp msgctxt "" "solver_options.xhp\n" -"par_id130619\n" +"par_id3912778\n" "help.text" -msgid "In the Settings box, check all settings that you want to use for the current goal seeking operation. If the current option offers different values, the Edit button is enabled. Click Edit to open a dialog where you can change the value." -msgstr "Nella finestra Opzioni selezionate tutte le impostazioni da utilizzare per l'operazione di ricerca operativa. Se l'opzione corrente consente valori differenti, risulta abilitato il pulsante Modifica. Facendo clic su Modifica potete aprire una maschera per la modifica dei valori." +msgid "<ahelp hid=\".\">Enter or change the value of the selected setting.</ahelp>" +msgstr "" -#. mFtPo +#. cYCVf #: solver_options.xhp msgctxt "" "solver_options.xhp\n" -"par_id9999694\n" +"par_id271589981559367\n" "help.text" -msgid "Click OK to accept the changes and to go back to the <link href=\"text/scalc/01/solver.xhp\">Solver</link> dialog." -msgstr "Fate clic su OK per accettare le modifiche e ritornare alla finestra di dialogo del <link href=\"text/scalc/01/solver.xhp\">Risolutore</link>." +msgid "<link href=\"https://wiki.documentfoundation.org/NLPSolver\" name=\"wikipage\">Wiki page on non-linear solvers and theirs algorithms</link>" +msgstr "" + +#. A843R +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"tit\n" +"help.text" +msgid "Options" +msgstr "" + +#. U9kTW +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"bm_id0503200917110375_scalc\n" +"help.text" +msgid "<bookmark_value>Solver for Nonlinear Problems;Options</bookmark_value> <bookmark_value>solver for Calc; DEPS evolutionary algorithm</bookmark_value> <bookmark_value>solver for Calc; SCO evolutionary algorithm</bookmark_value> <bookmark_value>solver for Calc; linear solver</bookmark_value> <bookmark_value>solver for Calc; CoinMP linear solver</bookmark_value> <bookmark_value>solver for Calc; swarm non-linear solver</bookmark_value>" +msgstr "" + +#. atkqE +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"hd_id0503200917103593\n" +"help.text" +msgid "<variable id=\"SolverAlgorithmsOptionsh1\"><link href=\"text/scalc/01/solver_options_algo.xhp#SolverAlgorithmsOptionsh1\" name=\"Solver Algorithms Options\">Solver Algorithms Options</link></variable>" +msgstr "" + +#. RjM8p +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id651589925044267\n" +"help.text" +msgid "<variable id=\"DEPSEvolutionaryalgorithmh2\"><link href=\"text/scalc/01/solver_options_algo.xhp#DEPSEvolutionaryalgorithmh2\" name=\"DEPS Evolutionary algorithm\">DEPS Evolutionary Algorithm</link></variable>" +msgstr "" + +#. xBZfN +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id931590164412542\n" +"help.text" +msgid "DEPS consists of two independent algorithms: Differential Evolution and Particle Swarm Optimization. Both are especially suited for numerical problems, such as nonlinear optimization, and are complementary to each other in that they even out their others shortcomings." +msgstr "" + +#. EFbzc +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0603200910394232\n" +"help.text" +msgid "Agent Switch Rate" +msgstr "" + +#. E3ZoK +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0603200910394248\n" +"help.text" +msgid "Specifies the probability for an individual to choose the Differential Evolution strategy." +msgstr "" + +#. DbnUB +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0603200910394277\n" +"help.text" +msgid "DE: Crossover Probability" +msgstr "" + +#. phaC2 +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0603200910394280\n" +"help.text" +msgid "Defines the probability of the individual being combined with the globally best point. If crossover is not used, the point is assembled from the own memory of the individual." +msgstr "" + +#. G4GC9 +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0643200910394216\n" +"help.text" +msgid "DE: Scaling Factor" +msgstr "" + +#. qKt78 +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id360320091039424\n" +"help.text" +msgid "During crossover, the scaling factor decides about the “speed” of movement." +msgstr "" + +#. HPPHg +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0507200917103771\n" +"help.text" +msgid "Learning Cycles" +msgstr "" + +#. ED86j +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0503210917103720\n" +"help.text" +msgid "Defines the number of iterations, the algorithm should take. In each iteration, all individuals make a guess on the best solution and share their knowledge." +msgstr "" + +#. M5Ka8 +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id3603200910394222\n" +"help.text" +msgid "PS: Cognitive Constant" +msgstr "" + +#. bVENc +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id3603200915394212\n" +"help.text" +msgid "Sets the importance of the own memory (in particular the best reached point so far)." +msgstr "" + +#. ujBHP +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id060324091037421\n" +"help.text" +msgid "PS: Constriction Coefficient" +msgstr "" + +#. Z86BZ +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0608200910394225\n" +"help.text" +msgid "Defines the speed at which the particles/individuals move towards each other." +msgstr "" + +#. nFnAu +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id060320091039425\n" +"help.text" +msgid "PS: Mutation Probability" +msgstr "" + +#. fGiKi +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0603200910394272\n" +"help.text" +msgid "Defines the probability, that instead of moving a component of the particle towards the best point, it randomly chooses a new value from the valid range for that variable." +msgstr "" + +#. nn4Ms +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0603200910394292\n" +"help.text" +msgid "PS: Social Constant" +msgstr "" + +#. nAD2Z +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0603200910394284\n" +"help.text" +msgid "Sets the importance of the global best point between all particles/individuals." +msgstr "" + +#. GAGDE +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0503200217103891\n" +"help.text" +msgid "<variable id=\"enhstatusheader\">Show Enhanced Solver Status</variable>" +msgstr "" + +#. na8Ee +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0523200917103832\n" +"help.text" +msgid "<variable id=\"enhstatusdesc\">If <emph>enabled</emph>, an additional dialog is shown during the solving process which gives information about the current progress, the level of stagnation, the currently best known solution as well as the possibility, to stop or resume the solver.</variable>" +msgstr "" + +#. 3LaZ7 +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0503200417103780\n" +"help.text" +msgid "<variable id=\"swarmheader\">Size of Swarm</variable>" +msgstr "" + +#. UhBid +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0503100917103723\n" +"help.text" +msgid "<variable id=\"swarmdesc\">Defines the number of individuals to participate in the learning process. Each individual finds its own solutions and contributes to the overall knowledge.</variable>" +msgstr "" + +#. r62GH +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0504200917103794\n" +"help.text" +msgid "<variable id=\"stagnationheader\">Stagnation Limit</variable>" +msgstr "" + +#. LDNEL +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id050320091710377\n" +"help.text" +msgid "<variable id=\"stagnationdesc\">If this number of individuals found solutions within a close range, the iteration is stopped and the best of these values is chosen as optimal.</variable>" +msgstr "" + +#. vGYwe +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0503200917103762\n" +"help.text" +msgid "<variable id=\"stagtolheader\">Stagnation Tolerance</variable>" +msgstr "" + +#. wqeXY +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0503200917103834\n" +"help.text" +msgid "<variable id=\"stagtoldesc\">Defines in what range solutions are considered “similar”.</variable>" +msgstr "" + +#. jKuiG +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0503200917103740\n" +"help.text" +msgid "<variable id=\"acrheader\">Use ACR Comparator</variable>" +msgstr "" + +#. D8e8D +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0503200917103766\n" +"help.text" +msgid "If <emph>disabled</emph> (default), the BCH Comparator is used. It compares two individuals by first looking at their constraint violations and only if those are equal, it measures their current solution." +msgstr "" + +#. 7LWoa +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0503200917103744\n" +"help.text" +msgid "If <emph>enabled</emph>, the ACR Comparator is used. It compares two individuals dependent on the current iteration and measures their goodness with knowledge about the libraries worst known solutions (in regard to their constraint violations)." +msgstr "" + +#. GZ7C2 +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0503200917103792\n" +"help.text" +msgid "Use Random Starting Point" +msgstr "" + +#. EdJoF +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0503200917103790\n" +"help.text" +msgid "If <emph>enabled</emph>, the library is simply filled up with randomly chosen points." +msgstr "" + +#. oCPc4 +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0503200917103765\n" +"help.text" +msgid "If <emph>disabled</emph>, the currently present values (as given by the user) are inserted in the library as reference point." +msgstr "" + +#. ctLqK +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0503200917103732\n" +"help.text" +msgid "<variable id=\"variableguessheader\">Variable Bounds Guessing</variable>" +msgstr "" + +#. rc95a +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id050320091710378\n" +"help.text" +msgid "<variable id=\"variableguessdesc\">If enabled (default), the algorithm tries to find variable bounds by looking at the starting values.</variable>" +msgstr "" + +#. JctSA +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0503200917103794\n" +"help.text" +msgid "<variable id=\"variablethresheader\">Variable Bounds Threshold</variable>" +msgstr "" + +#. NNyfL +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0503200917103710\n" +"help.text" +msgid "<variable id=\"variablethresdesc\">When guessing variable bounds, this threshold specifies, how the initial values are shifted to build the bounds. For an example how these values are calculated, please refer to the Manual in the Wiki.</variable>" +msgstr "" + +#. UDXDh +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id391589925078747\n" +"help.text" +msgid "<variable id=\"SCOEvolutionaryAlgorithmh2\"><link href=\"text/scalc/01/solver_options_algo.xhp#SCOEvolutionaryAlgorithmh2\" name=\"SCO Evolutionary Algorithm\">SCO Evolutionary Algorithm</link></variable>" +msgstr "" + +#. tqkJh +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id681590165847694\n" +"help.text" +msgid "Social Cognitive Optimization takes into account the human behavior of learning and sharing information. Each individual has access to a common library with knowledge shared between all individuals." +msgstr "" + +#. wovoy +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0503200917103771\n" +"help.text" +msgid "Learning Cycles" +msgstr "" + +#. wgKE5 +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0503200917103720\n" +"help.text" +msgid "Defines the number of iterations, the algorithm should take. In each iteration, all individuals make a guess on the best solution and share their knowledge." +msgstr "" + +#. wrasx +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id0603200910401382\n" +"help.text" +msgid "Size of Library" +msgstr "" + +#. 4PmLg +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id060320091040136\n" +"help.text" +msgid "Defines the amount of information to store in the public library. Each individual stores knowledge there and asks for information." +msgstr "" + +#. EPiZn +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id741589980722689\n" +"help.text" +msgid "<embedvar href=\"text/scalc/01/solver_options_algo.xhp#variablethresheader\"/>" +msgstr "" + +#. Ltucz +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id901589980722691\n" +"help.text" +msgid "<embedvar href=\"text/scalc/01/solver_options_algo.xhp#variablethresdesc\"/>" +msgstr "" + +#. 46h4u +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id671589925148891\n" +"help.text" +msgid "<variable id=\"LinearSolverh2\"><link href=\"text/scalc/01/solver_options_algo.xhp#LinearSolverh2\" name=\"%PRODUCTNAME Linear Solver\">%PRODUCTNAME Linear Solver and CoinMP Linear solver</link></variable>" +msgstr "" + +#. PNEaC +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id731589925837981\n" +"help.text" +msgid "<variable id=\"settingshead\">Setting</variable>" +msgstr "" + +#. DhVRA +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id611589925837982\n" +"help.text" +msgid "<variable id=\"descriptionhead\">Description</variable>" +msgstr "" + +#. MqHfE +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id511589925837984\n" +"help.text" +msgid "<variable id=\"integerhead\">Assume variables as integers</variable>" +msgstr "" + +#. Javmc +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id11589925837985\n" +"help.text" +msgid "<variable id=\"integerdesc\">Mark to force variables to be integers only.</variable>" +msgstr "" + +#. yie3u +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id221589961756407\n" +"help.text" +msgid "<variable id=\"noneghead\">Assume variables as non negative</variable>" +msgstr "" + +#. ij2he +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id861589961756408\n" +"help.text" +msgid "<variable id=\"nonegdesc\">Mark to force variables to be positive only.</variable>" +msgstr "" + +#. uEDEh +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id971589961907787\n" +"help.text" +msgid "Epsilon level" +msgstr "" + +#. JSVtE +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id421589961907788\n" +"help.text" +msgid "Epsilon level. Valid values are in range 0 (very tight) to 3 (very loose). Epsilon is the tolerance for rounding values to zero." +msgstr "" + +#. rtCLo +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id71589961998523\n" +"help.text" +msgid "Limit branch-and-bound depth" +msgstr "" + +#. yeTw2 +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id331589961998525\n" +"help.text" +msgid "Specifies the maximum branch-and-bound depth. A positive value means that the depth is absolute. A negative value means a relative branch-and-bound depth limit." +msgstr "" + +#. pnUYs +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id91589962070327\n" +"help.text" +msgid "<variable id=\"timelimithead\">Solver time limit</variable>" +msgstr "" + +#. PPtR8 +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id331589962070329\n" +"help.text" +msgid "<variable id=\"timelimitdesc\">Sets the maximum time for the algorithm to converge to a solution.</variable>" +msgstr "" + +#. 9WDm6 +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id711589925192067\n" +"help.text" +msgid "<variable id=\"SwarmNonLinearSolverh2\"><link href=\"text/scalc/01/solver_options_algo.xhp#SwarmNonLinearSolverh2\" name=\"%PRODUCTNAME Swarm Non-Linear Solver (Experimental)\">%PRODUCTNAME Swarm Non-Linear Solver (Experimental)</link></variable>" +msgstr "" + +#. TFadK +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id971589963431459\n" +"help.text" +msgid "Swarm algorithm" +msgstr "" + +#. cgpYF +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id71589963431460\n" +"help.text" +msgid "Set the swarm algorithm. 0 for differential evolution and 1 for particle swarm optimization. Default is 0." +msgstr "" + +#. ugAZb +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id271589981559367\n" +"help.text" +msgid "<link href=\"https://wiki.documentfoundation.org/NLPSolver\" name=\"wikipage\">Wiki page on non-linear solvers and theirs algorithms</link>" +msgstr "" + +#. D2nCR +#: solver_options_algo.xhp +msgctxt "" +"solver_options_algo.xhp\n" +"par_id211590163660314\n" +"help.text" +msgid "<link href=\"http://lpsolve.sourceforge.net/\">lp_solve reference guide in sourceforge.net</link>" +msgstr "" #. Q6isn #: stat_data.xhp |