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Before gameplay, a player must deposit coins, bills, barcode-bearing tickets, plastic tokens, or metal balls. Gameplay then commences and involves the constant operation of the lever, push-button, or pull-stick.
This electronic game is a popular Japanese game that is played using metal ball-bearings. The ball-bearings are shot around a board with multiple targets using the pull-stick.
Some of the targets prompt the release of set number similar balls. Landing a ball on other targets initiates a mini-game on the screen at the center of the console screen.
The overall goal of the game is to end up with more balls than those fed into the console. These balls are exchanged for cash.
This is a game with rotating reels containing symbols with different monetary values. Most slots machines feature a set of three reels that rotate at varying speeds.
The gameplay is centered around matching the symbols on all three reels. Play is initiated using a side lever or push-button.
The goal of the would-be player is to have all three reels displaying the matching symbol. Different combinations of matching symbols have different payouts, which the player receives instantly.
Video poker is identical to card poker in terms of gameplay rules. The critical difference with video poker is that gameplay occurs within a 2D or 3D simulated environment.
Video poker also offers a simulated croupier or dealer who conducts the simulated game. As with the previous case, video bingo is identical to live poker in terms of gameplay rules.
The key difference is also due to gameplay occurring within a 2D or 3D simulated environment. Video poker also makes use of a simulated game host.
Other gambling activities take place in casinos but do not fall into the first two categories. These games deviate from games in the previous categories in that they offer simultaneous multiplayer participation.
The miscellaneous casino game category has This is a game of chance allowing multiplayer participation. The gameplay is initiated and conducted by a game host who conveys a random number sequence to a hall full of players.
The numbers values range from 1 to 75 and are picked by a ball machine. A ticket lottery and a game of bingo mostly make use of the same gaming principles.
The wireless network cards are a little different though. You have probably seen and used the USB version of network adaptors, but the expansion card version of the wireless adaptor is just somewhat more robust.
They usually come with high gain antennas and are even 2-in-1, supporting Bluetooth. Want to turn your computer into a TV?
Yes, you can, install one of these TV tuner cards, use their application, and you should be able to receive local TV channels on your computer.
There used to be FM tuner cards that you can install in your computer, and allow you to tune in to the local radio.
But with the rise of the Internet, online videos, Internet radio, and smartphones, FM tuner cards have gone extinct. Today, these cards are not as useful, but can still be used to send out faxes.
With the correct software, you can record and stream videos onto the Internet. Want to add more SATA hard disks? These interface cards will allow you to add more ports of your choice to your computer.
PCI: The PCI slot is the most common form of internal expansion for a PC. Some PCs have a mixture of PCI and PCI Express slots.
If so, go with PCI Express when you have that option. In the example to the right, two green lines are shown representing the delineation before Feb.
When this button is selected, additional configuration options are presented, and the arrow points down.
When any of the Hide Value or Show Value compression modes are selected, the Set Reference Value icon become active. Selecting this icon opens a dialog to allow the user to enter a value.
Once a new number is entered, the Compression Mode menu options will display that number in the menu. The value does not have a unit associated with it.
For more flexibility, value comparison can be based on either:. The display precision will be used; this is the default. If two numbers appear the same on the screen, they are considered the same.
A number must be within convergence of the other number to be considered the same. The internally stored numbers will be compared.
The Status information will show the number of rows that are hidden or compressed. On the Open Slot dialogs, the user can highlight a number of cells and type a new value that will be entered, as Input, into each selected cells.
When Series Display Compression is enabled, the editing of values is treated a differently as follows:. If the Compress Repeated Values is selected, editing of selected cells will edit any compressed cells.
For example, if repeated 33 values are repeated and the user selects the repeated value, types in a new number, all 33 values will be set to that new number.
If any of the Hide options are selected, editing of selected cells will not affect hidden cells. Hidden values and NaNs will not be overwritten.
But, any cells displayed and selected will be affected by the new value. Also, if the entire column is selected, edits will then apply to all values, whether hidden or not.
Similarly, on multi-column slots, if the user selects the Hide NaNs and Value option, it will only hide a row if all three columns have the reference value OR NaN.
Possible flags vary by slot, but may include the following:. User-input data are automatically flagged as INPUT, and may not be overwritten by simulation results.
Certain values imported by an input DMI are flagged Z for DMI INPUT and are treated identically to INPUT I flags. Initialization Rules can also set values with the Z flag.
OUTPUT O timesteps may contain values calculated during a previous run or toggled from INPUT status. These values are automatically cleared to NaN at the beginning of a simulation run.
This guarantees that no previous solutions remain from one run to the next. Flags other than OUTPUT and INPUT are only available for certain series slots.
This section describes the use of special flags which may be set on Series Slot timesteps. The flags are typically set by the same mechanisms as INPUT and OUTPUT flags.
But, unlike INPUT and OUTPUT flags, each type of special flag is only applicable to one or two slots.
All SeriesSlots must have one of the following flags set for every timestep; each flag is indicated by its abbreviation:.
This flag indicates that the value was set by an input DMI or Initialization Rule. See DMI Invocation Manager Dialog in Data Management Interface DMI for details on DMI Invocations.
See Initialization Rules Set in RiverWare Policy Language RPL for details on Initialization Rules. In simulation, the Z flag behaves identically to the INPUT I flag.
This flag indicates that the value was set directly by a rule. This flag indicates that the value was set during iterative MRM by an MRM rule.
They are considered input during an iterative MRM run. Flags are set from the Open Slot dialog or from the SCT. Flags which are unavailable for that slot will appear dimmed in the menu.
Set selected cells to Input. Set all cells to Input. Set selected cells to Output. Set all cells to Output.
Reverse the input and output flags on selected cells. Reverse the input and output flags on all the cells.
The following sections describe many of the special flags. These flags are used by the Plant Power Coefficient Release User Method to calculate the most efficient or maximum Energy generation possible for the flagged timestep.
The Plant Power Coefficient Release method uses tables to relate the current Operating Head to the most efficient Turbine Release or maximum allowable Turbine Release.
The MAX CAPACITY flag is available for all power method except LCR Power Calc. The calculation of the best efficiency Energy generation or max possible Energy generation is an iterative solution.
The Outflow required to produce the desired type of Energy affects Tailwater Elevation, which affects Operating Head, which affects the Outflow required to produce the desired Energy.
See Power Release in Objects and Methods for details on this methods. When two reservoirs are modeled in series, the Tailwater Elevation of the lower reservoir affects the Operating Head of the upper reservoir.
The Outflow of the upper reservoir, in turn, affects the Tailwater Elevation of the lower reservoir. This creates an iterative loop between the Outflow from the upper reservoir, the Tailwater Elevation of the lower reservoir, and the Operating Head of the upper reservoir.
If the Energy value is now set as an input and the model is run again, the Input Energy may not be possible given the Operating Head on the first iteration.
If this happens a RiverWare warning is posted but the run does not abort, since the energy value MAY match the Operating Head at a later iteration.
The Energy also MAY NOT match the Operating Head at a later iteration. If this occurs, the model will continue running even though the object did not solve.
The run will NOT be aborted, but objects may not dispatch because required information was not propagated to them.
The user must check the dispatch dialog if they receive the RiverWare warning message given above to make sure the model ran correctly.
As demonstrated in the simulation exercise, this flag computes the maximum possible Outflow from a Reservoir on a given timestep. Setting the MAX CAPACITY flag on a Reservoir Outflow slot forces the Outflow to equal the sum of the maximum Turbine Release and the maximum Spill.
The use of this flag also depends on having reliable and accurate input tables relating elevation to maximum release and spill.
RiverWare places an M at the selected timestep to indicate that the flag is active. This flag is treated as an INPUT, but does not require a value.
If a valid Outflow value is present at the flagged timestep, it is ignored in the simulation; a new Outflow value is calculated and displayed at that timestep.
This behavior is similar to the Max Capacity and Best Efficiency flags of the Energy slot and the Drift flags of the Regulated Spill and Bypass slots.
The Outflow Max Capacity flag may NOT be used on reservoirs when solving for Hydrologic Inflow, or when solving a Target Operation. The Max Capacity solution is iterative.
The exact sequence of calculations in each iterative loop is dependent on the type of Reservoir and the selected Spill Calculation Method.
In all cases, the maximum Spill and maximum controlled Release are calculated individually, then summed. If the selected Spill Method includes Regulated Spill, the current or previous Pool Elevation is used to look up the maximum Regulated Spill from the Regulated Spill Table.
This value is set in the Regulated Spill slot, and the selected Spill Calculation Method is called. Next, the maximum release is calculated. If the Reservoir is a Power Reservoir, the selected Tailwater method is executed to determine the Operating Head.
This Operating Head or the Pool Elevation in the case of Storage Reservoirs is used to look up the maximum release from the Max Turbine Q table, Max Release table, Max Flow Through Turbines table, or Best Generator Flow table.
Finally, the maximum release and the calculated Spill are added to determine the total maximum Outflow. This Outflow is used to mass balance the Reservoir.
The iteration is repeated until Convergence is met or Max Iterations is exceeded. Target Operations are used to calculate a lumped mass balance across several timesteps, in order to exactly meet a user-input TARGET Pool Elevation or Storage value.
Three conditions are necessary for a Target Operation to execute successfully:. This value may be INPUT or a known value at the time the Target Operation solves.
Given these conditions, RiverWare calculates the unknown Inflows or Outflows for all of the timesteps within the Target Operation, such that the TARGET value is exactly met.
When solving a target operation, RiverWare searches backwards from the TARGET time until it finds a valid TARGET BEGIN flag. The Target Operation is solved using the value from the timestep prior to the TARGET BEGIN flag as an initial condition.
If the timestep prior to the TARGET BEGIN does not have a valid Storage or Pool Elevation, or a valid input value exists between the TARGET BEGIN and the TARGET, the simulation aborts with an error.
Likewise, if the TARGET BEGIN or TARGET timestep already has enough information to dispatch with a different dispatch method, simulation aborts.
If no TARGET BEGIN flag is specified, RiverWare searches backwards to the first valid value and solves the Target Operation with this initial condition.
When a beginning of target is assumed in this manner, RiverWare marks the timestep where the Target Operation actually begins with a tb lowercase flag in the Open Slot dialog.
This flag is treated as an output, and is automatically cleared at the start of the next run. Setting a Target Operation from an SCT generates both the TARGET and TARGET BEGIN flags, and clears any previous Target Operations which overlapped with the new range.
To calculate the unknown flow values, RiverWare performs a lumped mass balance over the target range. The required change in Storage is found by subtracting the storage just before the TARGET BEGIN converted from Pool Elevation in the case of a Pool Elevation TARGET from the TARGET value also converted from Pool Elevation in the case of a Pool Elevation TARGET.
This volume of side flows is then subtracted from the change in Storage required to meet the TARGET value, and the remaining flow volume is distributed equally among the unknown Inflows or Outflows.
The setting of flow values on intermediate timesteps of the Target Operation forces the object onto the dispatch queue at those times.
The timesteps dispatch with enough information to solve completely Inflow and Outflow are known for all timesteps.
The only timestep which actually re-dispatches is the TARGET timestep, since a valid previous Storage value is now known. Spill DRIFT is used to calculate the Regulated or Bypass Spill over a controlled gate as the reservoir Pool Elevation changes over time.
The flag is always considered an input on any timestep where it is set but no value is initially set by the user. Since DRIFT is considered an INPUT, it may affect over determination of Spill parameters.
The first timestep prior to initiating drift is used to determine a gate index called the Regulated or Bypass Drift Index. This index is interpolated from a 3-dimensional Regulated or Bypass Spill Index Table, which relates Pool Elevation to Spill for various gate indices.
In all subsequent timesteps where the DRIFT flag is set, the same index is used to determine the new Spill. The gate index is maintained throughout the selected time period.
At each timestep, the new value of Spill is calculated for the structure based on the current average Pool Elevation. The SURCHARGE RELEASE flag is used to calculate the surcharge or mandatory release from a reservoir during flood control operations.
Surcharge releases are meant to evacuate water from that sits above the top of the flood pool.
This flag can only be set on the Surcharge Release slot which is only available when the user has selected a Surcharge Release method. When the SURCHARGE RELEASE flag is set, and the inflow to the reservoir is known, the reservoir can dispatch with the Solve given Inflow, Outflow dispatch method.
This dispatch method will calculate the forecasted surcharge releases and will set them on both the Surcharge Release and Outflow slots so that they may propagate downstream.
The manner in which the forecasted surcharge releases are calculated depends on the method selected in the Surcharge Release category.
If you are interested in using one of the surcharge release methods, see Surcharge Release in Objects and Methods for details. Regulation discharge is used during flood control operations and is defined as the maximum allowable flow in the channel at the control point.
This flag should only be set on the Regulation Discharge Calc slot on Control Points. This slot is only available when the user has selected a Flood Control method and a Regulation Discharge method.
If you are interested in using one of the Regulation Discharge methods, see Regulation Discharge in Objects and Methods for details.
The UNIT VALUES U flag is used to indicate that the user is going to specify unit level values but would like to use those to drive the solution.
The UNIT VALUES flag may be set on Energy or Turbine Release on power reservoirs that have the Unit Power Table method selected see Unit Power Table in Objects and Methods.
If the Unit Power Table method is not selected, an error is issued. At the beginning of the run any numeric values are cleared out.
The flag can be set directly on the slot, from the SCT, or from a Rule. Thus, if the U flag is set on Energy, one or more Unit Energy subslots must be specified by user input or a rule.
When RiverWare runs, it sees that Energy has this flag which is considered an input. If it has enough other information like Inflow, Storage, or Pool Elevation , the reservoir will be able to dispatch one of the following methods:.
In addition, Energy can be flagged U, if the reservoir dispatches one of the following methods:. Alternatively, if the U flag is set on Turbine Release, one or more Unit Turbine Release subslots must be specified as user input or by a rule.
When RiverWare runs, it sees that Turbine Release has this flag which is considered an input. If it has an Inflow, the reservoir will be able to dispatch the Solve given Inflow Release method.
This flag is specific to the Unit Power Table method; see Unit Power Table in Objects and Methods for full details on this algorithm.
The Find Series Slots with Inputs utility can be used to find values that are input in the model. It is accessed from the RiverWare Workspace using the Workspace , then Slots , then Find Inputs menu.
The Search Slots dialog appears. The user has options to filter on the types of series slots on which to look for input values. In a pure simulation model, this is only Physical Slots i.
Outflow, Inflow, etc. The search may be limited to either Initialization Timesteps before the Run Start timestep or Run Period Timesteps on or after the Run Start timestep.
If both are checked, all series slots having any inputs are found, regardless of where in time those Input values are within the slots' time series.
The search operation is performed by selecting the Search button. If search criteria is changed by selecting any of the checkboxes at the top of the dialog , a green check icon is displayed next to the search button indicating that a new search with the new criteria has yet to be performed.
The green check icon is hidden upon performing another search. The user has the option of showing the slots' object name and account name if applicable in separate columns.
This is controlled by the Compress columns checkbox below the slot list. This is not available if supply slots or exchange slots are shown in the slot list,.
Several context menu right-click operations are available within the slot list:. Show the open slot dialog for the picked slot item.
Show the object dialog for the picked slot item if applicable. Put the selected slot items into the slot clipboard, e. Separate open slot dialogs are shown for each of the selected items in the list.
All slots in the list regardless of item selection are shown in a new SCT dialog, and the Find Series Slots with Inputs dialog is closed.
Selected slots in the slot list are shown in a new SCT dialog, and the Find Series Slots with Inputs dialog is closed. The Find Series Slots with Inputs dialog is closed.
The dialog can also be used to find slot descriptions; see Slot Descriptions for details. Expression slots are computational expressions.
The user can either create a Series Slot with Expression or a Scalar Slot with Expression. To add a Series slot with expression select Slot , then Add Series Slot with Expression.
Expression slots utilize the RiverWare Policy Language RPL. RPL is computationally expressive language and has an associated structured editor.
Because Expression slots utilize RPL the same language in which RiverWare rules are written they may contain simple expressions or complex logic and functions.
Anything that may be expressed in a rule may also be evaluated in an Expression slot. The use of RPL also provides dimensional analysis to ensure that units are reconciled throughout the expression.
When first opened, this slot is shown in its own Slot Dialog so you can see and edit the expression or the data. The slot can also be shown in the Slot Viewer, with only the data shown.
Use the File menu or drag the slot onto the viewer as described Slot Viewer Functionality. Click the icon to open the slot in its own dialog where you can see the expression.
Following is description of the configuration options available for expression slots. All of these menus can be accessed from the Slot Dialog.
All but the Expression menu can be accessed from the Slot Viewer. On the File menu, the Import options are not available as you cannot import or type data into the slot.
The export options are available and can be used to export the calculated data out of the slot. A Print Expression menu option is available to print the expression.
This uses the same printing mechanism as other RPL sets; see Printing in RiverWare Policy Language RPL for details. On expression slots, the Edit menu has options to Copy to the RiverWare clipboard and Export Copy to the system clipboard.
The configuration uses the standard series slot configuration dialog; see Configure Slot Dialog Functionality for details.
You can change the unit type of the expression slot. It must correspond to the unit type of the RPL expression.
By default, Expression slots are evaluated for each timestep in the model run i. If you are only interested in the result of an expression for a reduced range of dates or for a different timestep, you may select View , then Evaluation Range , to open the Configure Timeseries—Evaluation Range dialog and enter the date range in which you are interested.
The Start and End times can be specified explicitly or symbolically as RPL DATETIMES; see DATETIME in RiverWare Policy Language RPL for details.
Text below the editor field indicates the actual DateTime of the entered symbolic time text if it is valid , or the status if it is not valid.
You can also use the menu to specify one of the common DateTimes. Some of these are expressions that must be edited to become valid, e.
The Datetime Editor option opens a separate dialog to specify the DateTime using a selector configured for the model's timestep size.
The RPL Function opens a Function Selector to select a RPL function in the Expression Slot or Global Function Set.
The selected function must have a return type of DATETIME, and must not have any arguments. Select Help question mark icon button on the right side of the symbolic DateTime editor to show a description of symbolic DateTime representations.
For slots with a different timestep than the run, the slot will evaluate for only those timesteps that fall within the run dates. This toggle is used to show or hide the expression.
By default, the expression is shown. The user can manually evaluate the expression from the Expression , then Evaluate menu. The user can manually verify the expressions validity using the Expression , then Validate menu.
Expression slots can be evaluated at the beginning or end of each simulation run, at the beginning or end of each timestep, never, or interactively on demand.
These options are particularly useful for performance when running large models and when evaluating a large number of expression slots.
To select when an Expression slot is evaluated select Expression , then Evaluation Time from the Expression slot menu and select an option.
A check mark will be shown next to the selected option. The NaN might come from an expression slot that hasn't been evaluated yet, so it should evaluate later, once that expression has had a chance to evaluate.
The palette operations IsNaN and NanToZero return a valid value, so do not cause re-evaluation of the expression slot.
The Expression menu is used to build expressions. There are options to Cut , Copy , Paste, Delete , and Enable and expression. Undo and Redo are available to go back or go forward when editing expressions.
These are only available when a relevant expression is selected. Finally, there is a menu option to bring up the Palette open the RPL Debugger and open the RPL set.
The RPL set containing functions used by any expression slot can be opened by View , then Open RPL Set.
See About RPL Sets in RiverWare Policy Language RPL for details on RPL sets. From the RPL set, the user can control the layout using the Set p Layout menu.
See Formatting: Display Settings in RiverWare Policy Language RPL for details on layouts. The Show Comments menu allows you to hide or show inline RPL comments added from the palette.
Comments are shown by default. If there are any comments defined, a box is shown around the toggle. Expression slots utilize the RPL palette to build expressions.
The RPL palette provides a syntax-guided editor designed to assist in the construction of complex syntactically correct expressions within the RiverWare Policy Language environment.
The editor works by maintaining a partially constructed expression and allowing the user to manipulate unfinished portions using the palette.
Initially, the buttons in the palette are grayed out. When building an expression, the palette enables any buttons that could possibly go in a highlighted portion of the expression.
See Editing a RPL Expression in RiverWare Policy Language RPL for details. See RunStartDate and RunEndDate in RiverWare Policy Language RPL for details.
For example, to get the slot named DailyTotals from this object, you could create the following expression:. Diagnostics for expression slot evaluation can be configured in the Diagnostics Manager; see Diagnostics Manager in Debugging and Analysis for details.
If expression slots are evaluated outside of a run, using the Expression , then Evaluate menu on the slot or the Control, then Evaluate Expression Slots menu from the workspace, then diagnostics must be set up using the Workspace diagnostics; see This document is under development.
If expression slots are evaluate during a run, either beginning or end of timestep or beginning or end of run, then diagnostics must be set up using Simulation diagnostics see Simulation Diagnostics in Debugging and Analysis or Rulebased Simulation diagnostics see Rulebased Simulation Diagnostic Groups in Debugging and Analysis , depending on the selected controller.
Within each of those diagnostics configurations, the Expr. Slot Execution and Expr. Slot Function Execution categories deal with expression slots.
The Text Series Slot holds a series of user-specified text strings. Because it is a series slot, it provides much of the required series slot functionality like display, flags, use in SCTs, and input via DMI.
It has comments about how the system is operated during Flood Season. If you try to copy and paste, you will see the encoded number.
The following list provides information on supported functionality:. They have a description and other normal slot attributes. A non-specified value is blank, not NaN.
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