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サッカー賭けサイト
サッカー賭けサイト has developed a unique solution method (*CGCG method, a hybrid solution method with the direct method), which enables fast calculations for a variety of analyses.

About サッカー賭けサイト's solver CGCG method

Unique solution combining region segmentation and iterative method
High parallel performance and reduced memory consumption

In general numerical programs using the finite element method, the decline in parallel efficiency becomes a major problem as the number of parallels increases. In addition, as the number of nodes increases, the larger the matrix to be solved becomes, the more memory is required, requiring a high-specification computer. However, サッカー賭けサイト has developed a unique solution (*CGCG method, a hybrid solution method with the direct method) that maintains high parallel efficiency and reduces memory consumption even when the number of parallels increases.
※CGCG法(Coarse Grid Based Conjugate Gradient)

General application サッカー賭けサイト
No. of parts 1~10 parts 1~500 parts
No. of nodes About 1 million max. About 30 million max.
*Achieved;200 million nodes
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サッカー賭けサイト Features

Feature 1 : High-speed calculations

Ultra-fast calculation possible

One feature of サッカー賭けサイト is its fast computation time. Shorter computation time increases the number of CAE studies within a limited time, which sometimes makes it difficult to perform sufficient evaluation studies within a limited time. サッカー賭けサイト uses a highly convergent algorithm to complete calculations in a short time. By shortening the solver calculation time, the number of evaluation studies within a limited time can be increased. By completing calculations in a shorter time, more design alternatives can be evaluated. This improves design quality and development speed.

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Feature2 : Parallel efficiency

By increasing the number of parallels, time-consuming サッカー賭けサイト can be completed in a shorter time.

The usual finite element method software has a major problem of parallel efficiency decline as the number of parallels increases. サッカー賭けサイト has developed its own algorithm CGCG method, so parallel efficiency does not drop.

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The graph on the left is an overall engine block analysis consisting of approximately 6 million elements and 39 parts. The number of parallelism is taken on the horizontal axis and the computation time on the vertical axis, and the growth rate of the サッカー賭けサイト computation is expressed in terms of parallelization efficiency.

Feature3 : Memory saving

Even if the サッカー賭けサイト scale is large, it can be analyzed with less memory!

Finite element method software requires more memory as the scale of analysis increases, requiring an expensive computing environment. サッカー賭けサイト requires very little memory to perform calculations, making it possible to perform larger-scale analyses than ever before even in your current computing environment. In addition, サッカー賭けサイト's low memory requirements are also advantageous when running calculations and pre/post-processing on the same machine.

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The above figure shows a series of サッカー賭けサイト flow in the automotive engine reliability サッカー賭けサイト assembly process. Even a model with approximately 6 million elements can be analyzed with as little as 39,8 GB ofmemory.

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List of サッカー賭けサイト Functions

List of サッカー賭けサイト analysis functions

サッカー賭けサイト Various analysis functions
サッカー賭けサイト type Static サッカー賭けサイト Static サッカー賭けサイト Elastic サッカー賭けサイト
Contact サッカー賭けサイト
Large deformation サッカー賭けサイト
Elasto-plastic サッカー賭けサイト
Creep and viscoelastic サッカー賭けサイト
Hyper-elastic サッカー賭けサイト
Rate-dependent non-linear kinematic hardening サッカー賭けサイト (Material model suitable for high-temperature metallic materials)
Lead-free solder creep サッカー賭けサイト
Dynamic サッカー賭けサイト Dynamic サッカー賭けサイト Transient response サッカー賭けサイト (including direct time integration and explicit dynamic サッカー賭けサイト)
Eigenvalue サッカー賭けサイト
Modal frequency response サッカー賭けサイト
Random response サッカー賭けサイト
Fatigue サッカー賭けサイト Fatigue サッカー賭けサイト Low-cycle fatigue サッカー賭けサイト
High-cycle fatigue サッカー賭けサイト
Fatigue crack growth サッカー賭けサイト
Fracture mechanics サッカー賭けサイト Stress intensity factor
J-integral
Optimization サッカー賭けサイト Optimization サッカー賭けサイト Topology optimization サッカー賭けサイト
Shape optimization サッカー賭けサイト
Heat transfer サッカー賭けサイト Heat transfer サッカー賭けサイト Steady-state heat transfer サッカー賭けサイト
Non-steady heat transfer サッカー賭けサイト
Coupling サッカー賭けサイト Coupled structural and heat transfer サッカー賭けサイト
CAD Interfaces CATIA Interface
Creo Interface
NX Interface
Parasolid Interface
STEP, IGES Interface
Collabo Interfaces SCRYU/Tetra Interface

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