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• Welcome to Ultramarine

  Welcome to Ultramarine Makers of MOSES- The Final Answer in Marine Simulation. (Click on the pictures) MOSES Structures FPSOs Spars TLPs Fixed Platforms Compliant Towers Semi-FPS GBS Wind

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• MOSES Help Desk

  The Documentation Page contains both hard copy Reference Manual, online Reference Manual, Questions about Details, MOSES Conventions, MOSES Verification, Some Theory, and some Miscellaneous Technical

• A Discussion About Video Cards

  The NVidia TNT2 is not recommended as it tends to be unstable under the load MOSES puts on it. Finally, if the water or ground appear to be moving in directions that don't correspond to the translatio

• Printer Friendly A Discussion About Video Cards

  To run MOSES in "gui" mode, a hardware OpenGL accelerated video card is highly recommended. The NVidia TNT2 is not recommended as it tends to be unstable under the load MOSES puts on it. Finally, if t

• Printer Friendly MOSES Help Desk

  This page was designed to be a "help center" for using MOSES. Can't Find the Answer?: If you do not find the answer here, please send us an e-mail on the form provided. Ultramarine, Inc. Suite 325

• How To Do - Tutorials

  How To Do - Tutorials Printable Version Help Desk Home Tutorial Home Vessel Modeling Hydrostatics, Stability, and Ballasting Seakeeping Jacket/Deck Installation Mooring Using Our Tools V

• Commands found in Most Examples

  The first command line the program reads are: &device -primary device -cecho y -oecho n -auxin xxx.dat &dimen -DIMEN FEET KIPS &TITLE This is a Title &SUBTITLE This is a Subtitle The co

• MOSES DIMENSIONS MOSES DIMENSIONS

  One of the interesting features of MOSES is that all of the data is stored in the database in a neutral format. and the available options are: -DIMEN, LEN, FOR -SAVE -REMEMBER The -

• Printer Friendly MOSES DIMENSIONS

  One of the interesting features of MOSES is that all of the data is stored in the database in a neutral format. and the available options are: -DIMEN, LEN, FOR -SAVE -REMEMBER The -

• Model Defaults and Parameters Model Defaults and Parameters

  To allow flexibility in using MOSES, the user is free to set many of his own defaults. The default values used for defining a model are defined with the command: &MODEL_DEF, -OPTIONS Two basic

• Printer Friendly Model Defaults and Parameters

  To allow flexibility in using MOSES, the user is free to set many of his own defaults. The default values used for defining a model are defined with the command: &MODEL_DEF, -OPTIONS Two basic

• THE MOSES MODEL THE MOSES MODEL

  MOSES operates using a database philosophy. MOSES has two different menus for defining the constant part of the model: the INMODEL menu and the MEDIT menu. Data defined via the INMODEL menu is input f

• Printer Friendly THE MOSES MODEL

  MOSES operates using a database philosophy. MOSES has two different menus for defining the constant part of the model: the INMODEL menu and the MEDIT menu. Data defined via the INMODEL menu is input f

• Printer Friendly Commands found in Most Examples

  The purpose here is to document several commands which are used in most of the examples. The first command line the program reads are: &device -primary device -cecho y -oecho n -auxin xxx.dat

• Hydrostatics, Stability, & Ballasting

  General Overview of Hydrostatics & BallastingSimple StabilityWind Areas and Compartment BallastingPlate Areas and Specific Compartment BallastingStability of a Transportation Allowable KG & Stability

• Allowable KG & Stability Macros

  Documentation of the macros m_stab datam_stab commandsm_stab logm_stab output This sample shows how to use our automated stability macros to assess the stability of a single condition, or to find an a

• Printer Friendly Allowable KG & Stability Macros

  Documentation of the macros m_stab datam_stab commandsm_stab logm_stab output This sample shows how to use our automated stability macros to assess the stability of a single condition, or to find an a

• Automated Stability Analysis

  In essence, doing a stability study is the same a doing a transportation anlysis, only one stops after doing the stability; i.e. one uses the -no_seakeep option on the TRANSP command. i_stab commandsi

• Printer Friendly Automated Stability Analysis

  This is an example of the use of the automatic installation macro system supplied in the tools directory to analyze the stability of a tow. In essence, doing a stability study is the same a doing a tr

• Simple Stability

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. bstab databstab commandsbstab logbstab output There are four major parts to the analysis: Read

• Printer Friendly Simple Stability

  Here, a basic stability analysis is performed. Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. bstab databstab commandsbstab logbstab output The

• Incline Macro

  Incline Macro Printable Version Help Desk Home Tutorial Home Vessel Modeling Hydrostatics, Stability, and Ballasting Seakeeping Jacket/Deck Installation Mooring Using Our Tools incline d

• Printer Friendly Incline Macro

  Incline Macro incline dataincline commandsincline logincline output This sample shows how to use our automated incline macros. The documentation for these can be viewed by Clicking Here. Ultramarine,

• Allowable Deck Load Macro

  Documentation of the macro dload datadload commandsdload logdload output This sample shows how to use our automated deck load macro. The interesting part of the command file is: HSTATICS &set f

• Printer Friendly Allowable Deck Load Macro

  Documentation of the macro dload datadload commandsdload logdload output This sample shows how to use our automated deck load macro. The interesting part of the command file is: HSTATICS &set f

• Plate Areas and Better Ballasting

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. comp datapcomp commandspcomp logpcomp output The changes made to the data file are basically to

• Printer Friendly Plate Areas and Better Ballasting

  The scheme we chose in the previous analysis (Click here to review.) for describing the wind area will work only for a single draft! Most of our examples contain a common set of "beginning" commands a

• Wind Areas and Ballasting

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. wcomp datawcomp commandswcomp logwcomp output The first basic change which was made was to add t

• Printer Friendly Wind Areas and Ballasting

  Here, we solve the wind area problem that we discovered in the previous example. Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. wcomp datawcomp

• Mooring Analysis

  Overview of MooringMulti-Point MooringMooring Line FatigueAutomated Tanker MooringManual Tanker MooringSide by Side Tanker MooringFree Standing Riser Here, by Mooring, we mean analyzing a body (or col

• Side by Side Tanker Mooring

  Side by Side Tanker Mooring Printable Version Side by Side commandsSide by Side logSide by Side outputSide by Side Report This is a rather sophisticated sample of two tankers being moored "side by sid

• Printer Friendly Side by Side Tanker Mooring

  Side by Side Tanker Mooring Side by Side commandsSide by Side logSide by Side outputSide by Side Report This is a rather sophisticated sample of two tankers being moored "side by side". Ultramarine, I

• Manual Tanker Mooring

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. calm datacalm commandscalm logcalm output After the beginning, we place the two bodies in space

• Common Connector Design Commands

  Mooring Tables $ CONN_DESIGN TABLE A REPORT VLIST PLOT 1 3 -NO REPORT END MOVE TBRG 90 REPORT VLIST PLOT 1 6 -NO

• Printer Friendly Common Connector Design Commands

  The purpose here is to document use of the Connector Design menu for mooring. Mooring Tables $ CONN_DESIGN TABLE A REPORT VLIST PLOT 1 3 -NO REPORT EN

• Common Frequency Response Commands

  A frequency domain analysis is performed within the Frequency Response menu which is entered via the command: $ $********************************************* Frequency Response $ FRE

• Printer Friendly Common Frequency Response Commands

  The purpose here is to document several commands which are used most often in the frequency response menu when performing a mooring analysis. A frequency domain analysis is performed within the Freque

• Common Time Domain Commands

  The the command $ $********************************************* Time Domain $ TDOM -NEWMARK performs a time domain simulation, and the option -NEWMARK tells the program to use the

• Printer Friendly Common Time Domain Commands

  The purpose here is to document commands which are used most often for time domain analysis when performing a mooring analysis. The the command $ $*********************************************

• Printer Friendly Manual Tanker Mooring

  This sample problem shows a tanker moored with a "calm" being simulated in the frequency domain. Most of our examples contain a common set of "beginning" commands as well as a common "ending" command.

• Free Standing Riser

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. buoy databuoy commandsbuoy logbuoy output We begin this analysis by setting some variables, taki

• Printer Friendly Free Standing Riser

  This sample problem shows an analysis of a free-standing buoyant riser. Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. buoy databuoy commandsbu

• Printer Friendly Mooring Analysis

  Overview of MooringMulti-Point MooringMooring Line FatigueAutomated Tanker MooringManual Tanker MooringSide by Side Tanker MooringFree Standing Riser Here, by Mooring, we mean analyzing a body (or col

• Printer Friendly Multi-Point Mooring

  This sample shows the use of most of the options available for analysis of a moored barge. Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. mp_mo

• Mooring Line Fatigue

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. ml_fat dataml_fat commandsml_fat logml_fat output As mentioned above, our objective here is to c

• Printer Friendly Mooring Line Fatigue

  This sample problem shows an analysis of a barge where the fatigue in the mooring system is computed. Most of our examples contain a common set of "beginning" commands as well as a common "ending" com

• Automated Tanker Mooring

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. turret dataturret commandsturret logturret output Here, we discuss how to perform a mooring moti

• Printer Friendly Automated Tanker Mooring

  This is an example of the use of the tanker analysis macro system supplied in the tools directory. Most of our examples contain a common set of "beginning" commands as well as a common "ending" comman

• Multi-Point Mooring

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. mp_moor datamp_moor commandsmp_moor logmp_moor output After the standard beginning commands, we

• Jacket/Deck Installation

  Jacket Launch Transportation Lift, Lower, & Upending Loadout Mating There are two examples of using the automated installation system. Loadout BallastingManual Lift, Lower, & UpendTwo Block UpendMatin

• Jacket on a Hook

  Jacket on a Hook Printable Version Help Desk Home Tutorial Home Vessel Modeling Hydrostatics, Stability, and Ballasting Seakeeping Jacket/Deck Installation Mooring Using Our Tools Ultram

• Printer Friendly Jacket on a Hook

  Jacket on a Hook Docking of a jacket to a pile is shown in this example, with the intent of finding docking forces on the pile. Ultramarine, Inc. Suite 325 3100 S.

• Automatic Installation Command File Automatic Installation Command File

  The user has the option to perform different installation simulations, perform the structural analyses, and do one comprehensive structural code check for all load cases. And the available options are

• Printer Friendly Automatic Installation Command File

  The user has the option to perform different installation simulations, perform the structural analyses, and do one comprehensive structural code check for all load cases. And the available options are

• Mating

  What we are really interested in finding out is the magnitude of the connection forces during this process. Now, you can find the maximum impact load by "connecting" a pile to the pin and restarting t

• Printer Friendly Mating

  The question of mating (or docking) is a rather broad one and here, we will consider only a special case. What we are really interested in finding out is the magnitude of the connection forces during

• Lift, Lower, & Upend

  The subjects we will cover here are lifting, lowering and upending. One simply lifts the deck off of the cargo barge and sets it down on the jacket. Here, the jacket starts the upending floating with

• Loadout

  Instead of considering the problem as a single difficult one, it is normally separated into two problems: Analyze the structure with a set of stiff supports which model the barge skidways, the land s

• Printer Friendly Loadout

  By loadout, we mean the process of moving a structure from a set of skidways on the land to a cargo barge. Instead of considering the problem as a single difficult one, it is normally separated into t

• AUTOMATIC OFFSHORE INSTALLATION AUTOMATIC OFFSHORE INSTALLATION

  In previous versions of MOSES, we provided a suite of macros that automated the task of performing installation analyses for offshore structures. Here, Loadout refers to structural loadout, not loadou

• Printer Friendly AUTOMATIC OFFSHORE INSTALLATION

  In previous versions of MOSES, we provided a suite of macros that automated the task of performing installation analyses for offshore structures. Here, Loadout refers to structural loadout, not loadou

• Printer Friendly Jacket/Deck Installation

  Here, we discuss how to analyze the installation of a structure with MOSES. Jacket Launch Transportation Lift, Lower, & Upending Loadout Mating There are two examples of using the automated installati

• Printer Friendly Jacket Launch

  A launch is the final step in a transportation analysis. Not all jackets behave like this, however. Now, to make sense of the process, we need to take a closer look at a few "events" during the proces

• Jacket Launch

  Not all jackets behave like this, however. Now, to make sense of the process, we need to take a closer look at a few "events" during the process. Here, you can clearly see that the barge trim is quite

• Transportation

  Transportation Printable Version Help Desk Home Tutorial Home Vessel Modeling Hydrostatics, Stability, and Ballasting Seakeeping Jacket/Deck Installation Mooring Using Our Tools This fig

• Printer Friendly Transportation

  What we mean here by Transportation is really almost a union of stability, seakeeping, and stress analysis. This figure is fairly typical of the class of problem we want to address. Ultramarine, Inc.

• Printer Friendly Lift, Lower, & Upend

  The subjects we will cover here are lifting, lowering and upending. One simply lifts the deck off of the cargo barge and sets it down on the jacket. Here, the jacket starts the upending floating with

• Loadout Ballasting

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. load_bal dataload_bal commandsload_bal logload_bal output The entire analysis is done within the

• Printer Friendly Loadout Ballasting

  This is a basic example for computing hydrostatics and ballasting of a barge. Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. load_bal dataload_

• Manual Lift, Lower, & Upend

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. up_lowr dataup_lowr commandsup_lowr logup_lowr output After the model has been read, one "comple

• Install Data Template Install Data Template

  This template is used in conjunction with a set of macros and comi files to automate the analyses of installing a jacket, deck or other structure. Most of the data required is defined in this file. Ba

• Printer Friendly Install Data Template

  This template is used in conjunction with a set of macros and comi files to automate the analyses of installing a jacket, deck or other structure. Most of the data required is defined in this file. Ba

• Two Block Upend

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. two_blk datatwo_blk commandstwo_blk logtwo_blk output This sample is somewhat different because

• Printer Friendly Two Block Upend

  This sample illustrates a two block upending of a tripod. Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. two_blk datatwo_blk commandstwo_blk lo

• Printer Friendly Manual Lift, Lower, & Upend

  This is an example of a jacket being lowered into the water and then upended. Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. up_lowr dataup_low

• Seakeeping

  Overview Of Seakeeping Response Amplitude OperatorsMotions with CargoMotion and Force Statistics By seakeeping, we mean finding the motions and related quantities of a vessel subjected to a sea state.

• Printer Friendly Seakeeping

  Overview Of Seakeeping Response Amplitude OperatorsMotions with CargoMotion and Force Statistics By seakeeping, we mean finding the motions and related quantities of a vessel subjected to a sea state.

• Printer Friendly Response Amplitude Operators

  In this step, we calculate and report the RAOs. Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. RAO dataRAO commandsRAO logRAO output To compute

• Response Amplitude Operators

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. RAO dataRAO commandsRAO logRAO output To compute motion response operators for the condition we

• THE HYDRODYNAMIC MENU THE HYDRODYNAMIC MENU

  The Hydrodynamics Menu contains commands which allow the user to to build, alter, and maintain databases of hydrodynamic properties which act on body panels. and when one has completed his task here,

• Printer Friendly THE HYDRODYNAMIC MENU

  The Hydrodynamics Menu contains commands which allow the user to to build, alter, and maintain databases of hydrodynamic properties which act on body panels. and when one has completed his task here,

• Motion and Force Statistics

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. mstat datamstat commandsmstat logmstat output The rest of the commands are the same until we get

• Printer Friendly Motion and Force Statistics

  In this example, we add commands to calculate and report the cargo motions and forces statistics to the previous analysis. Most of our examples contain a common set of "beginning" commands as well as

• Motions with Cargo

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. cargo datacargo commandscargo logcargo output If you look at the new data file, you will notice

• Printer Friendly Motions with Cargo

  Up until now, we have been considering an unrealistic situation - a barge with no cargo. Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. cargo d

• Printer Friendly How To Do - Tutorials

  Here, we discuss how to accomplish specific tasks with MOSES. Vessel Modeling Hydrostatics, Stability, and Ballasting Seakeeping Jacket/Deck Installation Mooring Using Our Tools Ultramarine, Inc. S

• Vessel Modeling

  Overview of Vessel Modeling Vessel Modeling MacrosVessel LibraryStep by Step Tutorial for Barge Modeling Using Regular ToolsModeling examples using &surface toolsSimple &SURFACE ExampleGeneration of a

• Modeling A Dive Boat

  The files which are discussed here are: g_cpuma commandsg_cpuma logg_cpuma results This example defined both the exterior of the dive boat and the tanks and interior void spaces in the &surface menu.

• Printer Friendly Modeling A Dive Boat

  This sample generates a model of a dive boat, the SEA PUMA. The files which are discussed here are: g_cpuma commandsg_cpuma logg_cpuma results This example defined both the exterior of the dive boat a

• Printer Friendly Vessel Modeling

  Overview of Vessel Modeling Vessel Modeling MacrosVessel LibraryStep by Step Tutorial for Barge Modeling Using Regular ToolsModeling examples using &surface toolsSimple &SURFACE ExampleGeneration of a

• Printer Friendly Using the &SURFACE Menu

  This sample creates a panel model from several blocks. Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. bblocks commandsbblocks log This file beg

• Modeling A Semi Submersible Vessel

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. semi commandssemi log Unlike most of other examples presented in this section, the use of variab

• Common Commands to Vessel Modeling

  The following macro is used to generate four plots of the models. This macro is used in three of the vessel modeling samples, files tlp_bld.cif, spar.cif and ssub.cif. $ $**********************

• Printer Friendly Common Commands to Vessel Modeling

  The purpose here is to document the plotting macro used in most of the example vessel modeling files. The following macro is used to generate four plots of the models. This macro is used in three of t

• Printer Friendly Modeling A Semi Submersible Vessel

  This sample generates a model of a real semi submersible vessel (110 X 61 meters). Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. semi commands

• Modeling a Shell TLP

  The files which are discussed here are: ursa commandsursa logursa results This sample builds a model of a "Shell" tlp. To change the geometry, simple change the dimesions at the beginning of the file.

• Printer Friendly Modeling a Shell TLP

  This sample generates a model of URSA, a Shell TLP The files which are discussed here are: ursa commandsursa logursa results This sample builds a model of a "Shell" tlp. To change the geometry, simple

• Easy tutorials for Barge Modeling

  Some of our install macros require that the model of the vessel be formatted in a particular way (use of common variables). The most trivial model for a barge will probably look like $ &DESCRIB

• Printer Friendly Easy tutorials for Barge Modeling

  This document constitutes an attempt to guide a novice user during the process of building his first MOSES model of a barge. Some of our install macros require that the model of the vessel be formatte

• Modeling A Semi Crane Vessel

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. db102 commandsdb102 log Along with the common block of beginning commands this .com file sets a

• Printer Friendly Modeling A Semi Crane Vessel

  This sample generates a model of DB102. Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. db102 commandsdb102 log Along with the common block of b

• Modeling a Spar

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. spar commandsspar log This comi file will generate a spar based on the basic data. Sample files

• Printer Friendly Modeling a Spar

  This sample generates a model of a spar. Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. spar commandsspar log This comi file will generate a sp

• Jackup Definition

  Jackups are different from most vessels in that they contain things which may move about. Here, we have two samples of jackups - a "standard" three leg jackup and a mat jackup. The important thing abo

• Printer Friendly Jackup Definition

  Jackups are different from most vessels in that they contain things which may move about. Here, we have two samples of jackups - a "standard" three leg jackup and a mat jackup. The important thing abo

• Modeling a TLP

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. tlp_bld commandstlp_bld log The basic dimensions of the the TLP are used to create the model. Th

• Printer Friendly Modeling a TLP

  This sample generates a model of a TLP with circular columns and pontoons. Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. tlp_bld commandstlp_b

• Using the &SURFACE Menu

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. bblocks commandsbblocks log This file begins with the setting of several variables as is shown b

• Macro Usage

  Overview of Macro UsageJacket GenerationBent RollupPipe Riser General Overview of Macro Usage: Here, we give specific examples of usage of some of the macros which are supplied with MOSES. Ultramarine

• Bent Rollup

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. rollup datarollup commandsrollup logrollup output This example is very simple, we take the most

• Printer Friendly Bent Rollup

  This is a sample using the macro ROLLUP which is provided in the tools directory. Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. rollup datarol

• Pipebend

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. rpipe datarpipe commandsrpipe logrpipe output Modeling a riser which contains bends is not an ea

• Printer Friendly Pipebend

  This is an example of the stress analysis of a rigid pipe riser. Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. rpipe datarpipe commandsrpipe l

• Jacket Generation

  Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. jktgen datajktgen commandsjktgen logjktgen output This macro generates a jacket model with just

• Printer Friendly Jacket Generation

  This is an example of the use of the macro JKT_GEN which is supplied in the tools directory. Most of our examples contain a common set of "beginning" commands as well as a common "ending" command. jkt

• Printer Friendly Macro Usage

  Overview of Macro UsageJacket GenerationBent RollupPipe Riser General Overview of Macro Usage: Here, we give specific examples of usage of some of the macros which are supplied with MOSES. Ultramarine

• Moses Manual

  The NOFRAMES element is to be used to give useful content to people with browsers that cannot display frames. One example is Lynx, a text-based browser. Ultramarine, Inc. Suite 325 3100 S.

• Welcome to Ultramarine, Inc.

  Welcome to the MOSES Manual With html pages, one page per section, orusing ACROREAD to view or print the manual as from a pdf file. The html pages are structured so that you can use either the Table o

• MOSES COMMAND INDEX MOSES COMMAND INDEX

  MOSES COMMAND INDEX Printable Version !!+ !-!P ## #AMASS#AREA #BUOY#DRAG #ELAT#PLATE #TABLE#TANKER #TUBE#WEIGHT &APPLY&BODY &BUILDG&CHANNEL &CLASS&CMP_BAL &COMPARTMENT&COMPARTMENT &CONNECTOR&CONNECTOR

• Post-Processing Static Processes Post-Processing Static Processes

  When one is post-processing a static process, several commands are available. and the only available option is: -EVENTS, EBEG, EEND, EINC Here, EBEG and EEND are the beginning and ending event

• Printer Friendly Post-Processing Static Processes

  When one is post-processing a static process, several commands are available. and the only available option is: -EVENTS, EBEG, EEND, EINC Here, EBEG and EEND are the beginning and ending event

• Connector Force Post-Processing Connector Force Post-Processing

  If connectors were attached to the system when the frequency response was computed, the frequency response of the constraint forces was also computed. Here, the user is placed in the Disposition Menu

• Printer Friendly Connector Force Post-Processing

  If connectors were attached to the system when the frequency response was computed, the frequency response of the constraint forces was also computed. Here, the user is placed in the Disposition Menu

• Pressure Data Pressure Data

  To compute the sea pressures on the vessel, the program must know the form of the vessel below the water. and the available options are: -HEADING, H(1), H(2), ...., H(n) -PERIOD, T(1), T(

• Printer Friendly Pressure Data

  To compute the sea pressures on the vessel, the program must know the form of the vessel below the water. and the available options are: -HEADING, H(1), H(2), ...., H(n) -PERIOD, T(1), T(

• Defining a Launchway Assembly Defining a Launchway Assembly

  A launchway is a complicated set of connections which are collectively referenced within MOSES by the name &LWAY. and the available options are: -FRIC, DYNFRC -TPIN, TPRIDEP, XP, YP, ZP,

• Printer Friendly Defining a Launchway Assembly

  A launchway is a complicated set of connections which are collectively referenced within MOSES by the name &LWAY. and the available options are: -FRIC, DYNFRC -TPIN, TPRIDEP, XP, YP, ZP,

• STRUCTURAL ANALYSIS & APPLIED LOADS STRUCTURAL ANALYSIS & APPLIED LOADS

  To perform a structural analysis or emit a set of applied structural loads, one must enter the Structural Menu. where the available option is: -INITIALIZE This command places the user in a sub-

• Printer Friendly STRUCTURAL ANALYSIS & APPLIED LOADS

  To perform a structural analysis or emit a set of applied structural loads, one must enter the Structural Menu. where the available option is: -INITIALIZE This command places the user in a sub-

• Post-Processing Rods and Pipes Post-Processing Rods and Pipes

  When a system contains either rod elements or a pipe assembly, commands are available to obtain additional information about the behavior of the rod elements involved. To obtain an idea of the behavio

• Printer Friendly Post-Processing Rods and Pipes

  When a system contains either rod elements or a pipe assembly, commands are available to obtain additional information about the behavior of the rod elements involved. To obtain an idea of the behavio

• Extracting Modes Of Vibration Extracting Modes Of Vibration

  If one wishes to investigate the vibration modes of a body, he should issue the command: MODES, BNAME, -OPTIONS and the options are: -NUM_EVAL, NEV -NO_FIX Here, BNAME defines the

• Printer Friendly Extracting Modes Of Vibration

  If one wishes to investigate the vibration modes of a body, he should issue the command: MODES, BNAME, -OPTIONS and the options are: -NUM_EVAL, NEV -NO_FIX Here, BNAME defines the

• Connecting Parts Connecting Parts

  Connecting parts is a rather delicate proposition. When this command is issued, an element will be generated between *SLAVE(i) and *MASTER(i). The second method of connecting parts is with special con

• Printer Friendly Connecting Parts

  Connecting parts is a rather delicate proposition. When this command is issued, an element will be generated between *SLAVE(i) and *MASTER(i). The second method of connecting parts is with special con

• The &BUILDG Menu The &BUILDG Menu

  A command is provided so that the user can simply input data and use it in the Disposition Menu. Here, the data which must be entered can be thought of as a matrix. If one specifies the option -BRIEF,

• Printer Friendly The &BUILDG Menu

  A command is provided so that the user can simply input data and use it in the Disposition Menu. Here, the data which must be entered can be thought of as a matrix. If one specifies the option -BRIEF,

• THE REPOSITION MENU THE REPOSITION MENU

  To investigate different ways to reposition bodies using connectors, MOSES provides the Reposition Menu. and must be exited using an END_REPO At this menu level, several commands are available

• Printer Friendly THE REPOSITION MENU

  To investigate different ways to reposition bodies using connectors, MOSES provides the Reposition Menu. and must be exited using an END_REPO At this menu level, several commands are available

• Frequency Domain Transportation Solution Frequency Domain Transportation Solution

  If one wishes to investigate the frequency domain behavior of a structure being towed on a vessel, MOSES provides an easy method to obtain the solution. and the options will define the type of solutio

• Printer Friendly Frequency Domain Transportation Solution

  If one wishes to investigate the frequency domain behavior of a structure being towed on a vessel, MOSES provides an easy method to obtain the solution. and the options will define the type of solutio

• Post-Processing Modes Post-Processing Modes

  Structural Post-Processing results for modes are obtained with the command: MODES, TYPE(1), ...., TYPE(i) -OPTIONS where TYPE(i) must be chosen from VALUES or VECTOR. and the available options

• Printer Friendly Post-Processing Modes

  Structural Post-Processing results for modes are obtained with the command: MODES, TYPE(1), ...., TYPE(i) -OPTIONS where TYPE(i) must be chosen from VALUES or VECTOR. and the available options

• Curves of Form Curves of Form

  Perhaps the most primitive hydrostatic results are those which normally comprise the curves of form. The form of the command for curves of form is: CFORM, DRAFT, ROLL, TRIM, -OPTIONS and the av

• Printer Friendly Curves of Form

  Perhaps the most primitive hydrostatic results are those which normally comprise the curves of form. The form of the command for curves of form is: CFORM, DRAFT, ROLL, TRIM, -OPTIONS and the av

• CREATING A STATIC PROCESS CREATING A STATIC PROCESS

  The Static Process Menu of MOSES is used to simulate the process of altering the position of a body by either lifting or ballasting. BNAME is the name of the body which will be considered. The method

• Printer Friendly CREATING A STATIC PROCESS

  The Static Process Menu of MOSES is used to simulate the process of altering the position of a body by either lifting or ballasting. BNAME is the name of the body which will be considered. The method

• Post-Processing Joints Post-Processing Joints

  Structural Post-Processing results for joints are obtained with the command: JOINT, TYPE(1), ...., TYPE(i) -OPTIONS TYPE(i) must be chosen from DISPLACEMENT, CODE_CHECK, S_FATIGUE, CRUSH, COUN

• Printer Friendly Post-Processing Joints

  Structural Post-Processing results for joints are obtained with the command: JOINT, TYPE(1), ...., TYPE(i) -OPTIONS TYPE(i) must be chosen from DISPLACEMENT, CODE_CHECK, S_FATIGUE, CRUSH, COUN

• POST-PROCESSING OF A PROCESS POST-PROCESSING OF A PROCESS

  By entering the command PRCPOST Process Post-Processing Menu to obtain results of a process. The precise commands available in this menu depend on the type of process being considered and the d

• Printer Friendly POST-PROCESSING OF A PROCESS

  By entering the command PRCPOST Process Post-Processing Menu to obtain results of a process. The precise commands available in this menu depend on the type of process being considered and the d

• Document Formatting Document Formatting

  To allow one to fully utilize MOSES's database structure, a text formatting capability is provided. The available options are: -CMD, CMDCHR -SAVE -NO_CONT The -CMD option is used to

• Printer Friendly Document Formatting

  To allow one to fully utilize MOSES's database structure, a text formatting capability is provided. The available options are: -CMD, CMDCHR -SAVE -NO_CONT The -CMD option is used to

• THE HYDROSTATIC MENU THE HYDROSTATIC MENU

  To perform hydrostatic computation with MOSES, one should issue the command HSTATICS, BNAME This command will place the user in the Hydrostatics Menu, where he can compute hydrostatic results f

• Printer Friendly THE HYDROSTATIC MENU

  To perform hydrostatic computation with MOSES, one should issue the command HSTATICS, BNAME This command will place the user in the Hydrostatics Menu, where he can compute hydrostatic results f

• Force Response Operators Force Response Operators

  Response operators of the forces in beams and connectors are obtained with the command: F_RAO, -OPTIONS CLASS, :CSLE -NODE, :NSEL(1), :NSEL(2), :NSEL(3), :NSEL(4) -ELEMENT, :ESEL

• Printer Friendly Force Response Operators

  Response operators of the forces in beams and connectors are obtained with the command: F_RAO, -OPTIONS CLASS, :CSLE -NODE, :NSEL(1), :NSEL(2), :NSEL(3), :NSEL(4) -ELEMENT, :ESEL

• Tug Connector Classes Tug Connector Classes

  In MOSES, one can simulate the effect of a tug boat attached to a body. where the available options are: -T_DYNAM, %FORCE, PHASE -DAMPING, C Here, FORCE is the force of the tug in bforce

• Printer Friendly Tug Connector Classes

  In MOSES, one can simulate the effect of a tug boat attached to a body. where the available options are: -T_DYNAM, %FORCE, PHASE -DAMPING, C Here, FORCE is the force of the tug in bforce

• Obtaining the Names of Quantities Obtaining the Names of Quantities

  Obtaining the Names of Quantities Printable Version Often it is useful to be able to obtain a list of names which are available in the database. REP_SELECT command and -HARD. Ultramarine, Inc. Suite

• Printer Friendly Obtaining the Names of Quantities

  Obtaining the Names of Quantities Often it is useful to be able to obtain a list of names which are available in the database. REP_SELECT command and -HARD. The value of REPTYP must be either: S_CASES

• Obtaining Connector Tables Obtaining Connector Tables

  The TABLE command is used to obtain a list of the force-distance properties of a connector. Here, LNAME is the name of the connector for which force-distance properties are desired, for each connector

• Printer Friendly Obtaining Connector Tables

  The TABLE command is used to obtain a list of the force-distance properties of a connector. Here, LNAME is the name of the connector for which force-distance properties are desired, for each connector

• Defining Load Cases Defining Load Cases

  The loads which will be generated by MOSES are determined by the LCASE command. The simplest form of the command is: LCASE, CNAME, #DEAD, INT(1), .. MOSES to create the load case named CNAME b

• Printer Friendly Defining Load Cases

  The loads which will be generated by MOSES are determined by the LCASE command. The simplest form of the command is: LCASE, CNAME, #DEAD, INT(1), .. MOSES to create the load case named CNAME b

• Obtaining Applied Loads Obtaining Applied Loads

  If the goal of entering the Structural Menu was to generate a set of applied loads, one should first issue the appropriate LCASE commands, and then select the portion of the model for which he wishes

• Printer Friendly Obtaining Applied Loads

  If the goal of entering the Structural Menu was to generate a set of applied loads, one should first issue the appropriate LCASE commands, and then select the portion of the model for which he wishes

• THE CONNECTOR DESIGN MENU THE CONNECTOR DESIGN MENU

  There are two distinct reasons to analyze a system containing connectors: one needs to assess their effect on the behavior of the system, and one needs to design a connector system to perform a given

• Printer Friendly THE CONNECTOR DESIGN MENU

  There are two distinct reasons to analyze a system containing connectors: one needs to assess their effect on the behavior of the system, and one needs to design a connector system to perform a given

• Defining Styles Defining Styles

  Whenever MOSES writes a report or draws a picture, it is done using a set of attributes which are called a style. STNAME is the style name and the available options are: -COLOR_SCHEME, CS_NAME

• Printer Friendly Defining Styles

  Whenever MOSES writes a report or draws a picture, it is done using a set of attributes which are called a style. STNAME is the style name and the available options are: -COLOR_SCHEME, CS_NAME

• Defining a Pipe or Riser Assembly Defining a Pipe or Riser Assembly

  A pipe assembly is a ROD element along with a set of elements which connect the ROD to a set of bodies. and the available options are: -TENSION, TLOWER, TUPPER Here, PIPCLS is the name of a RO

• Printer Friendly Defining a Pipe or Riser Assembly

  A pipe assembly is a ROD element along with a set of elements which connect the ROD to a set of bodies. and the available options are: -TENSION, TLOWER, TUPPER Here, PIPCLS is the name of a RO

• Bending Moments and Shears Bending Moments and Shears

  Bending moments and shears are somewhat different from the other commands in the Structural Post-Processing Menu in that one is placed in the Disposition Menu so that the results can be graphed, viewe

• Printer Friendly Bending Moments and Shears

  Bending moments and shears are somewhat different from the other commands in the Structural Post-Processing Menu in that one is placed in the Disposition Menu so that the results can be graphed, viewe

• Printer Friendly MOSES COMMAND INDEX

  Printer Friendly MOSES COMMAND INDEX !!+!-!P###AMASS#AREA#BUOY#DRAG#ELAT#PLATE#TABLE#TANKER#TUBE#WEIGHT&APPLY&BODY&BUILDG&CHANNEL&CLASS&CMP_BAL&COMPARTMENT&COMPARTMENT&CONNECTOR&CONNECTOR&CONNECTOR&CO

• Printer Friendly Post-Processing Trajectories

  When one is post-processing a time domain simulation, the commands available depend upon the model during the simulation. The available options are: -EVENTS, EBEG, EEND, EINC -CG -L

• Printer Friendly Obtaining the Results for a Pile

  To aid in designing or checking a pile, MOSES has the command: PILE_DESIGN, PNAME, -OPTIONS where the options are -FORCE, FX, FY, FZ, MX, MY, MZ -DISPLACEMENT, DX, DY, DZ, RX, RY,

• Printer Friendly Designing a Lifting Sling

  To aid in the design of a lifting sling, MOSES has a special command: SLING_DESIGN, *NOD(1), ..., *NOD(4), BEGHEI, MAXHEI, NUM When this command is issued, MOSES will take the body to which the

• Printer Friendly LAUNCH SIMULATION

  To initiate a launch analysis, the following command must be issued: LAUNCH, -OPTIONS where the available options are: -RESTART RTIME -MAXTIM MAXT -MAXOSC NOSC -TSTEP D

• Printer Friendly Finding Floating Equilibrium

  The method for finding an equilibrium position is fundamental to the manner in which MOSES considers hydrostatics. and the available options are: -ECHO, FLAG -FIX, DOF(1), ..., DOF(N)

• LAUNCH SIMULATION LAUNCH SIMULATION

  To initiate a launch analysis, the following command must be issued: LAUNCH, -OPTIONS where the available options are: -RESTART RTIME -MAXTIM MAXT -MAXOSC NOSC -TSTEP D

• Post-Processing Trajectories Post-Processing Trajectories

  When one is post-processing a time domain simulation, the commands available depend upon the model during the simulation. The available options are: -EVENTS, EBEG, EEND, EINC -CG -L

• Obtaining the Results for a Pile Obtaining the Results for a Pile

  To aid in designing or checking a pile, MOSES has the command: PILE_DESIGN, PNAME, -OPTIONS where the options are -FORCE, FX, FY, FZ, MX, MY, MZ -DISPLACEMENT, DX, DY, DZ, RX, RY,

• Finding Floating Equilibrium Finding Floating Equilibrium

  The method for finding an equilibrium position is fundamental to the manner in which MOSES considers hydrostatics. and the available options are: -ECHO, FLAG -FIX, DOF(1), ..., DOF(N)

• Designing a Lifting Sling Designing a Lifting Sling

  To aid in the design of a lifting sling, MOSES has a special command: SLING_DESIGN, *NOD(1), ..., *NOD(4), BEGHEI, MAXHEI, NUM When this command is issued, MOSES will take the body to which the

• MOSES OPTION INDEX MOSES OPTION INDEX

  MOSES OPTION INDEX Printable Version --A -ACCUMULATE-ACTIVE -ADD-ADD -ADDITIONAL-AFTER -AF_ENVIRONMENT-ALLOW -ALL_POINT-ALPHA -ALPHA-ALPHA -AMASDIA-AMASDIA -AMASS-AMASS_FUSE -AMCPLA-AMCTUB -AMOD-AMOD

• Printer Friendly MOSES OPTION INDEX

  Printer Friendly MOSES OPTION INDEX --A-ACCUMULATE-ACTIVE-ADD-ADD-ADDITIONAL-AFTER-AF_ENVIRONMENT-ALLOW-ALL_POINT-ALPHA-ALPHA-ALPHA-AMASDIA-AMASDIA-AMASS-AMASS_FUSE-AMCPLA-AMCTUB-AMOD-AMOD-AMOUNT-AMOU

• INTRODUCTION INTRODUCTION

  Since the first release of OSCAR in 1977, Ultramarine's primary objective has been to provide engineers with the tools necessary to realistically design and analyze marine structures and operations. I

• Printer Friendly INTRODUCTION

  Since the first release of OSCAR in 1977, Ultramarine's primary objective has been to provide engineers with the tools necessary to realistically design and analyze marine structures and operations. I

• Moses Manual - Table of Contents

  Moses Manual - Table of Contents

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• TABLE OF CONTENTS TABLE OF CONTENTS

  TABLE OF CONTENTS Printable Version INTRODUCTIONANALYSIS OVERVIEWTOOLS AND EXAMPLESOVERVIEW OF MOSESTHE MOSES INTERFACETHE BASICS OF THE MOSES LANGUAGEFiles and the ROOT ConceptCommands, Menus, and Nu

• TOOLS AND EXAMPLES TOOLS AND EXAMPLES

  TOOLS AND EXAMPLES Printable Version As an aid to both the use and understanding of the program, quite a bit of additional information is supplied electronically. This information can be roughly divid

• Printer Friendly TOOLS AND EXAMPLES

  TOOLS AND EXAMPLES As an aid to both the use and understanding of the program, quite a bit of additional information is supplied electronically. This information can be roughly divided into two catego

• ANALYSIS OVERVIEW ANALYSIS OVERVIEW

  MOSES is a simulation language. In general, the things with which MOSES performs simulations are called bodies. In computing the forces on a body due to its interaction with the water, the user can ch

• Printer Friendly ANALYSIS OVERVIEW

  MOSES is a simulation language. In general, the things with which MOSES performs simulations are called bodies. In computing the forces on a body due to its interaction with the water, the user can ch

• DEVICES AND PROGRAM BEHAVIOR DEVICES AND PROGRAM BEHAVIOR

  DEVICES AND PROGRAM BEHAVIOR Printable Version Perhaps one of the most confusing things which MOSES does is dealing with devices. By device, we mean either a physical piece of hardware such as a print

• Printer Friendly DEVICES AND PROGRAM BEHAVIOR

  DEVICES AND PROGRAM BEHAVIOR Perhaps one of the most confusing things which MOSES does is dealing with devices. By device, we mean either a physical piece of hardware such as a printer, pen plotter, t

• Printer Friendly TABLE OF CONTENTS

  Printer Friendly TABLE OF CONTENTSINTRODUCTIONANALYSIS OVERVIEWTOOLS AND EXAMPLESOVERVIEW OF MOSESTHE MOSES INTERFACETHE BASICS OF THE MOSES LANGUAGEFiles and the ROOT ConceptCommands, Menus, and Numb

• Printer Friendly OVERVIEW OF MOSES

  Perhaps the easiest way to describe MOSES is that it is not very smart, but it has a good memory. While all instructions to MOSES are called commands, it helps to separate instructions into the catego

• OVERVIEW OF MOSES OVERVIEW OF MOSES

  Perhaps the easiest way to describe MOSES is that it is not very smart, but it has a good memory. While all instructions to MOSES are called commands, it helps to separate instructions into the catego

• Maintaining MOSES

  Basic Background You Must Read This for the rest to make sense!MOSES SecurityThe Installation StructureThe MOSES CUSTOMIZE MenuAdding A New Computer Architecture This document is designed to give ba

• How To Cope With MOSES

  How To Cope With MOSES Printable Version Help Desk Home Beginners Guide' First MOSES Run How To Do - Tutorials How To Run MOSES How To Maintain MOSES How To Cope With MOSES Ultramarine, In

• What are Connectors?

  What are Connectors? Help Desk Home Beginners Guide' First MOSES Run How To Do - Tutorials How To Run MOSES How To Maintain MOSES How To Cope With MOSES Ultramarine, Inc. Suite 325 310

• Printer Friendly What are Connectors?

  What are Connectors? Connectors are elements which "connect" bodies. In MOSES, there are many different types of connectors: Mooring LinesTaught Lines (tension only, compression only, and both tension

• Implications of a Model

  Modeling structural elements is quite straight forward. When one considers something like a barge, however, he needs another concept to consider the force of the water. You must ask MOSES to compute t

• Printer Friendly Implications of a Model

  To be able to consider all of the things required in the offshore world, a MOSES model is more comprehensive than most models. Modeling structural elements is quite straight forward. When one consider

• What is an Environment?

  What is an Environment? Help Desk Home Beginners Guide' First MOSES Run How To Do - Tutorials How To Run MOSES How To Maintain MOSES How To Cope With MOSES Ultramarine, Inc. Suite 325

• Printer Friendly What is an Environment?

  What is an Environment? In addition to the basic models, MOSES needs a definition of the environment to perform a simulation. In general, an environment consists of: The depth of the water,The current

• How Moses Works

  Notice that you tell MOSES what to do, it does not tell you. The fundamental premise of MOSES is a language - the way you tell MOSES what to do. You build models of the bodies you want to analyze with

• Printer Friendly How Moses Works

  There are three aspects to the way MOSES views things: A model of each body in the systemA set of connections which connect the bodies andThe user who tells MOSES what to do Notice that you tell MOSES

• What Do You Mean a Language?

  What Do You Mean a Language? Help Desk Home Beginners Guide' First MOSES Run How To Do - Tutorials How To Run MOSES How To Maintain MOSES How To Cope With MOSES We can roughly divide the c

• Printer Friendly What Do You Mean a Language?

  When we say MOSES is a language, what we mean is that there is a structured way to communicate your desires to MOSES. i.e. all instructions given to MOSES ultimately result in a string of characters s

• Printer Friendly How To Cope With MOSES

  How To Cope With MOSES This provides a general overview of how we intend to use MOSES. In particular, it looks at the "mind set" one should adopt to really make use of all of the features of MOSES. Ul

• MOSES tutorials Overview

  It begins life as a collection of tubes in the fabrication yard. Upon arrival at the installation site, the jacket must be moved from the barge to an upright postion sitting on the sea floor. Now, the

• Printer Friendly MOSES tutorials Overview

  MOSES is a general purpose simulation program for the analysis of almost anything which will be placed in the ocean. It begins life as a collection of tubes in the fabrication yard. Upon arrival at th

• Beginners Guide

  If you have purchased our software and aren't familiar with MOSES, you need to get familiar with it!! Some where along the way, you will need information in the reference manual. The next thing to do

• Printer Friendly Beginners Guide

  Since we have so much information on our website to share with our clients, we figured the least we could do is point you in the right direction. If you have purchased our software and aren't familiar

• MOSES Security

  In the Windows world, one should use a slightly different command: ea_get xxx.x.xxx.x where xxx.x.xxx.x should be replaced with the IP address of the machine for which you want the ethernet ad

• Printer Friendly MOSES Security

  This page deals with two related issues: how to find the ethernet address of a machine and how to check that your system is "ok" for MOSES. In the Windows world, one should use a slightly different co

• How to Run MOSES

  In addition to the MOSES program you leased, the installation contains several other useful programs. MOSES TIDY - A utility to "tidy up" a MOSES database In addition, many tools are provided for WIN

• Printer Friendly How to Run MOSES

  Before beginning, please read the MAINTAIN section. In addition to the MOSES program you leased, the installation contains several other useful programs. MOSES TIDY - A utility to "tidy up" a MOSES d

• Your First Run of MOSES

  In this directory you will find five files: b_run.htm - which is the file you are reading, b_run.cif - a MOSES "command" file, and b_run.dat - a MOSES "data" file. clean.bat - a Windows file for clean

• Printer Friendly Your First Run of MOSES

  The purpose of this page is to provide a quick introduction to MOSES and how to run it. In this directory you will find five files: b_run.htm - which is the file you are reading, b_run.cif - a MOSES "

• Printer Friendly Maintaining MOSES

  Basic Background You Must Read This for the rest to make sense!MOSES SecurityThe Installation StructureThe MOSES CUSTOMIZE MenuAdding A New Computer Architecture This document is designed to give ba

• Vessel Library

  Most of the vessels you can use have an option to use either strip theory or 3d diffraction when computing sea pressures. By default no wind or drag attractors are included in these models. Please fee

• Cargo Barges

  Cargo Barges Printable Version Help Desk Home Vessel Lib Home Cargo Barges Launch Barges Carrier Vessels Tankers Crane Vessels Misc. amt_carr - AMT Carrier ( 375 x 98 ft )amt_expl - AMT

• AMT Explorer

  Main Particulars: 300 X 100 X 25 FT Light Ship Weight: 2263 M-Tons Structural model contains wbox beams and plates Compartmentation has not been included Deck cargo barge Ultramarine, Inc. Suite 325

• Printer Friendly AMT Explorer

  To use this vessel model, include the line USE_VES AMT_EXPL in your data file. Main Particulars: 300 X 100 X 25 FT Light Ship Weight: 2263 M-Tons Structural model contains wbox beams and pl

• Tdmar300

  Main Particulars: 296 X 100 X 20 FT Light Ship Weight: 3519 Kips Comments: Structural model not included Compartmentation included Click Here to look at the model data file: Ultramarine, Inc. Suite

• Printer Friendly Tdmar300

  To use this vessel model, include the line USE_VES TDMAR300 in your data file. Main Particulars: 296 X 100 X 20 FT Light Ship Weight: 3519 Kips Structural model not included Compartmentatio

• OC257

  Main Particulars: 250 X 72 x 15 FT Light Ship Weight: 1800 Kips Comments: Structural model not included Compartmentation included Click Here to look at the model data file: Ultramarine, Inc. Suite

• Printer Friendly OC257

  To use this vessel model, include the line USE_VES OC257 in your data file. Main Particulars: 250 X 72 x 15 FT Light Ship Weight: 1800 Kips Structural model not included Compartmentation i

• CBRG290

  Main Particulars: 290 X 90 X 20 FT Light Ship Weight: 4741 Kips Comments: Structural model included Compartmentation not included Click Here to look at the model data file: Ultramarine, Inc. Suite

• Printer Friendly CBRG290

  To use this vessel model, include the line USE_VES CBRG290 in your data file. Main Particulars: 290 X 90 X 20 FT Light Ship Weight: 4741 Kips Structural model included Compartmentation not

• OPI405

  Main Particulars: 300 X 90 X 20 FT Light Ship Weight: 4562 Kips Comments: Structural model as prismatics and plates Compartmentation not included Click Here to look at the model data file: Ultramarin

• Printer Friendly OPI405

  To use this vessel model, include the line USE_VES OPI405 in your data file. Main Particulars: 300 X 90 X 20 FT Light Ship Weight: 4562 Kips Structural model as prismatics and plates Compar

• MARMC400