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Flomerics FAQ

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== CFD-ACE ==
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== '''Flomerics CFD Products''' ==
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=== Question 1 ===
+
=== '''FLOTHERM - What are some key differentiators of Flotherm?''' ===
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Answer 1
+
-Complete set of SmartParts (intelligent model creation macros)
 +
-Explorer-style project manager with drag-and-drop functionality
 +
-CAD-style, mouse-driven drawing board using simple draw, drag and drop operations to create and manipulate geometry
 +
-Structured-Cartesian grid that can be “localized” and nested to minimize solve times and enable multi-scale modeling
 +
-Full control of grid constraints for fine, local and global refinement
 +
-Object-associated grid that combines model creation and grid generation into a single step
-
=== Question 2 ===
 
-
Answer 2
+
=== '''FLOTHERM - What are some key differentiators of the Flotherm solver?''' ===
 +
 
 +
-Concurrent solution for convective, conductive and radiative heat transfer
 +
-Solution termination optionally based on convergence of user defined monitor points
 +
-Multi-fluids capability
 +
-Ability to simulate either turbulent or laminar flow (turbulent models - revised algebraic, LVEL algebraic, Standard k-e, revised k-e)
 +
-Definition in transient variation in terms of linear ramping, power increase, exponential increase, sinusoidal, periodic or imported .csv pointwise variations
 +
-Fully automatic radiation exchange and view factor calculation
 +
-Automatic solar loading boundary conditions
 +
 
 +
=== '''FLOTHERM - What types of questions should be asked prior to purchasing a CFD Tool?''' ===
 +
 
 +
[[Support]] - In evaluating thermal analysis software for electronic systems, it is imperative for the user to have ready access to technical support from the supplier.
 +
 
 +
[[Computational mesh]] - Does the meshing technique of this software lead to the most efficient, speedy solution for the kind of problems I need to solve? How quick and easy is it to create the computational grid?
 +
 
 +
[[Solution features]] - Is it possible to view variables of interest – the temperatures of critical components, for example – while the solution is converging? Early indication of the solution can facilitate swift decisions, speeding up the design process.
 +
 
 +
[[Results]] - How does the software present the generated results? Can I output data in both tabular and 3D graphical form?
 +
 
 +
=== '''What type of ROI should I expect?''' ===
 +
 
 +
http://www.flomerics.com/flotherm/prod_info/invest/spreadsheet.jsp
 +
 
 +
=== '''FLOTHERM - What are the 7.1 System Requirements?''' ===
 +
 
 +
FLOTHERM v7.1 is available on the Microsoft Windows and Sun Solaris operating systems. Advanced solver support, parallel thermal solver and 64-bit thermal solver, are also available on these platforms.
 +
 
 +
FLOTHERM is partially available on Red Hat Enterprise Linux. Support on this platform is limited to following components: Thermal Solver, Exchange Factor Generator (EFG), Volunteer GUI and Volunteer daemon.
 +
 
 +
Platform Specific Requirements
 +
Microsoft Windows, 32-bit editions
 +
Supported operating systems:
 +
 
 +
Windows 2000 Professional with Service Pack 4
 +
Windows XP Professional with Service Pack 2  
 +
Windows Server 2003, Standard and Enterprise editions with Service Pack 1 and R2
 +
Hardware requirements:
 +
 
 +
x86-compatible Intel or AMD processor, minimum 1GHz Pentium III
 +
512 MB system memory (RAM), 1 GB recommended
 +
Graphics card with OpenGL support, minimum 64 MB memory and minimum XGA screen resolution (1024 x 768)
 +
Microsoft Windows, 64-bit editions
 +
Supported operating systems:
 +
 
 +
Windows XP Professional x64 edition with Service Pack 1
 +
Windows Server 2003 x64 editions (Standard and Enterprise) with Service Pack 1
 +
Hardware requirements:
 +
 
 +
64-bit capable AMD processor or an Intel processor with EM64T
 +
512 MB system memory (RAM), 1 GB recommended
 +
Graphics card with OpenGL support minimum 64 MB memory and minimum XGA screen resolution (1024 x 768)
 +
Sun Solaris
 +
Supported operating systems:
 +
 
 +
Sun Solaris 9 (SPARC) with 09/05 or higher
 +
Sun Solaris 10 (SPARC) with 03/05 or higher
 +
Hardware requirements:
 +
 
 +
400 MHz UltraSPARC-II processor or higher
 +
512 MB system memory (RAM), 1 GB recommended
 +
Graphics card with OpenGL support minimum 64 MB memory and minimum XGA screen resolution (1024 x 768)
 +
Linux, 32 bit (x86)
 +
Supported operating systems:
 +
 
 +
Red Hat Enterprise Linux 4
 +
Linux, 64 bit (x64)
 +
Supported operating systems:
 +
 
 +
Red Hat Enterprise Linux 4 (32 bit support)
 +
Hardware requirements:
 +
 
 +
x86-compatible processor
 +
512 MB system memory (RAM), 1 GB recommended
 +
Current Recommended Specifications
 +
High performance system:
 +
 
 +
Dual dual-core 2.8+GHz Xeon/dual dual-core 2.0GHz Opteron
 +
4+GB Memory
 +
Nvidia Quadro graphics card
 +
160+GB SATA/SCSI Hard drive
 +
Windows XP Pro x64
 +
 
 +
Medium range:
 +
 
 +
Pentium Dual core 3.2+GHz
 +
2+GB memory
 +
Nvidia Quadro graphics card
 +
160+GB SATA Hard drive
 +
Windows XP Pro x64
 +
 
 +
Minimum
 +
 
 +
Pentium 4 2.8+GHz/2.4+GHz Athlon64
 +
1GB Memory
 +
Nvidia Quadro graphics card
 +
80+GB ATA hard drive

Revision as of 18:08, 6 June 2007

Contents

Flomerics CFD Products

FLOTHERM - What are some key differentiators of Flotherm?

-Complete set of SmartParts (intelligent model creation macros) -Explorer-style project manager with drag-and-drop functionality -CAD-style, mouse-driven drawing board using simple draw, drag and drop operations to create and manipulate geometry -Structured-Cartesian grid that can be “localized” and nested to minimize solve times and enable multi-scale modeling -Full control of grid constraints for fine, local and global refinement -Object-associated grid that combines model creation and grid generation into a single step


FLOTHERM - What are some key differentiators of the Flotherm solver?

-Concurrent solution for convective, conductive and radiative heat transfer -Solution termination optionally based on convergence of user defined monitor points -Multi-fluids capability -Ability to simulate either turbulent or laminar flow (turbulent models - revised algebraic, LVEL algebraic, Standard k-e, revised k-e) -Definition in transient variation in terms of linear ramping, power increase, exponential increase, sinusoidal, periodic or imported .csv pointwise variations -Fully automatic radiation exchange and view factor calculation -Automatic solar loading boundary conditions

FLOTHERM - What types of questions should be asked prior to purchasing a CFD Tool?

Support - In evaluating thermal analysis software for electronic systems, it is imperative for the user to have ready access to technical support from the supplier.

Computational mesh - Does the meshing technique of this software lead to the most efficient, speedy solution for the kind of problems I need to solve? How quick and easy is it to create the computational grid?

Solution features - Is it possible to view variables of interest – the temperatures of critical components, for example – while the solution is converging? Early indication of the solution can facilitate swift decisions, speeding up the design process.

Results - How does the software present the generated results? Can I output data in both tabular and 3D graphical form?

What type of ROI should I expect?

http://www.flomerics.com/flotherm/prod_info/invest/spreadsheet.jsp

FLOTHERM - What are the 7.1 System Requirements?

FLOTHERM v7.1 is available on the Microsoft Windows and Sun Solaris operating systems. Advanced solver support, parallel thermal solver and 64-bit thermal solver, are also available on these platforms.

FLOTHERM is partially available on Red Hat Enterprise Linux. Support on this platform is limited to following components: Thermal Solver, Exchange Factor Generator (EFG), Volunteer GUI and Volunteer daemon.

Platform Specific Requirements Microsoft Windows, 32-bit editions Supported operating systems:

Windows 2000 Professional with Service Pack 4 Windows XP Professional with Service Pack 2 Windows Server 2003, Standard and Enterprise editions with Service Pack 1 and R2 Hardware requirements:

x86-compatible Intel or AMD processor, minimum 1GHz Pentium III 512 MB system memory (RAM), 1 GB recommended Graphics card with OpenGL support, minimum 64 MB memory and minimum XGA screen resolution (1024 x 768) Microsoft Windows, 64-bit editions Supported operating systems:

Windows XP Professional x64 edition with Service Pack 1 Windows Server 2003 x64 editions (Standard and Enterprise) with Service Pack 1 Hardware requirements:

64-bit capable AMD processor or an Intel processor with EM64T 512 MB system memory (RAM), 1 GB recommended Graphics card with OpenGL support minimum 64 MB memory and minimum XGA screen resolution (1024 x 768) Sun Solaris Supported operating systems:

Sun Solaris 9 (SPARC) with 09/05 or higher Sun Solaris 10 (SPARC) with 03/05 or higher Hardware requirements:

400 MHz UltraSPARC-II processor or higher 512 MB system memory (RAM), 1 GB recommended Graphics card with OpenGL support minimum 64 MB memory and minimum XGA screen resolution (1024 x 768) Linux, 32 bit (x86) Supported operating systems:

Red Hat Enterprise Linux 4 Linux, 64 bit (x64) Supported operating systems:

Red Hat Enterprise Linux 4 (32 bit support) Hardware requirements:

x86-compatible processor 512 MB system memory (RAM), 1 GB recommended Current Recommended Specifications High performance system:

Dual dual-core 2.8+GHz Xeon/dual dual-core 2.0GHz Opteron 4+GB Memory Nvidia Quadro graphics card 160+GB SATA/SCSI Hard drive Windows XP Pro x64

Medium range:

Pentium Dual core 3.2+GHz 2+GB memory Nvidia Quadro graphics card 160+GB SATA Hard drive Windows XP Pro x64

Minimum

Pentium 4 2.8+GHz/2.4+GHz Athlon64 1GB Memory Nvidia Quadro graphics card 80+GB ATA hard drive

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