[游戏工具]SACS CONNECT Edition 2025 (25.00.00.136) 完美激活 [复制链接]

Bentley 软件公司宣布对其最新版本 SACS CONNECT 版本 V2025进行增强，这是一款海上结构分析应用程序，可提供全自动和集成的 3D 建模、分析和设计，以有效管理大型、复杂的模型，以实现海上不断发展的数字化 市场。

The SACS development team is pleased to announce the release of SACS 2025 (25.00.00.136), an offshore structural analysis application that offers fully automated and integrated 3D modeling, analysis and design to efficiently manage large, complex models for the evolving digitalization in the offshore market.

Release Highlights Pile3D – Multiple Pile Analysis and Superelement Generation Pile3D now supports multiple pile analyses using 3D Finite


Pile3D – Multiple Pile Analysis and Superelement Generation
Pile3D now supports multiple pile analyses using 3D Finite Element Analysis of the pile/soil interaction for improved performance and convergence over PSI analyses. Simply select a Pile3D input file in the Analysis Generator for the PSI/Pile input file when creating your analysis. Pile3D integrated multiple pile analysis now also supports pile linearization for seamless integration into SACS dynamic analyses with Wave Response or Dynamic Response simulations. Full details of these enhancements may be found in the PSI/Pile documentation.

Post - AISC 360 (2022) Design Code Check
AISC Steel Construction Manual 16th (AISC 360 2022) has been added to SACS Post design code checks. AISC 16th may be used with API RP 2A 21st and 22nd editions with both WSD and LRFD methods. This update included changes to Hollow Structural, Channel, Box, Wide Flange, and Plate Girder sections.
Joint Mesher – Conical Section Meshing
A new method has been added to Joint Mesher enabling conical section meshing. The Simplex Mesher creates a set of surfaces of 1D beam elements and computes the intersections of these surfaces using numeric algorithms instead of analytical formulae. This methodology allows for more complex types of connections that previously were unsupported by Joint Mesher. Conical sections are now supported using the new Simplex Mesher methodology. The Legacy workflow is still supported as the default method for mesh generation.

ADINA Interoperability – Non-linear Dynamic Model Export
Export SACS models with dynamic mass properties and dynamic force time series with the SACS-ADINA Interop utility. ADINA is Bentley’s general non-linear dynamic finite element analysis software for advanced analyses and enables advanced non-linear dynamic analyses of offshore structures. Previously this feature was limited to non-linear static export of SACS model data with some model conversion options. This update adds the ability to export dynamic mass properties of a Dynpac Input file and base driven accelerations or force time series from a Dynamic Response input file. Export of the linear static model data is still accessible as a command through Precede, but export of the non-linear dynamic model requires an additional SACS ADINA Interop Input File and a SACS ADINA Interop Analysis run file accessible in the Analysis Generator under the Utilities analysis type.

SACS Cloud Services (Early Access Program)
Perform massively parallelized wind turbine analyses with SACS Cloud Services. The Bentley Cloud Services platform has been completely updated with improved performance, reliability, and reporting. This early access program enables anyone performing SACS Wind Turbine analyses (Uncoupled Strength, Uncoupled Fatigue, and Dynamic Superelement) to perform hundreds of analyses simultaneously in the cloud for significant performance gains when compared with traditional desktop hardware. This service has now been extended to all users.
SACS Wind Turbine Naming
OpenWindPower – Fixed Foundation has been renamed to SACS Wind Turbine. SACS Wind Turbine is functionally the same as OpenWindPower – Fixed Foundation; there are no changes to the license apart from the name change itself.



List of Enhancements and List of Fixed Defects



SACS
- 1322484 - SACS Motions solver has been updated to use the MOSES motions solver.
- 1570661 - Added support for import of ISM loads into SACS model files.
ADINA Interop
- 1571118 - Added support for Dynpac mass generation including: members, plates, loads, added mass, and entrapped mass. Full details are provided in the Utilities documentation.
- 1571125 - Added support to ADINA Interop utility to export base acceleration series from Seismic Time-History analyses.
- 1571126 - Added support to ADINA Interop utility to export force time history series from Force Time-History analyses.
Joint Mesher
- 1299975 - Added support for meshing of conical sections with Joint Mesher.
- 1300012 - Added a Simplex Mesher with enhanced meshing capabilities using simplicial surfaces to Joint Mesher.
- 1300021 - Added an option to select between the legacy Joint Mesher and the Simplex Mesher with enhanced meshing capabilities.
Pile
- 1562319 - Ability to generate foundation superelement using Pile3D has been added.
- 1562336 - Ability to analyze foundation with multiple piles using Pile3D has been added.
Post
- 1500044 - Added AISC 16th edition (360 2022) to SACS Post design code checks.
Precede
- 1565123 - Added crash reporting to SACS Precede for improved user support and quality control.
SACS Executive
- 1665803 - Updated Folder Browse dialogs with a modernized interface to enable direct path input.


SACS
- 1591405 - Fixed an issue with the Japanese 2002 section library where W15x31 Izz moment of inertia was incorrectly defined.
- 1645140 - Fixed an issue with ANSYS export utility where load cases were not exported.
Data Generator
- 1009373 - Fixed an issue where Datagen would crash when a JDIS line was inserted or edited.
- 1606984 - Removed a redundant Element Type entry on the LCGAP line.
Dynamic Response
- 1601115 - Fixed an issue where STCMB equivalent static load combinations were not autoincrementing correctly.
- 1639044 - Fixed a bug where acceleration input on DISP line in Dynamic Response was not being read.
Interactive Fatigue
- 1672566 - Fixed an issue where Damage reports in Interactive Fatigue could not be generated for Deterministic Fatigue analyses.
Pile
- 1579996 - PSI/Pile3D API 20th to 22nd clay PY curves have been updated to correctly consider effect of overburden pressure. API sand PY curve in the PSI module has also been updated to correctly consider overburden pressure. PSI and Pile3D calculations have been made consistent.
Post
- 1339267 - Fixed an issue where Post could crash when plate elements were skipped for stress calculation.
Precede
- 1609316 - Fixed an issue with rendering unsymmetric plate girder sections. Unsymmetric plate girder sections are now rendered so the 1-D beam element aligns with the neutral axis.
- 1610338 - Fixed an issue where the center of gravity glyph was displayed in English coordinates (in) for Metric models using the Self Weight dialog.
- 1628524 - Fixed a bug that could cause Precede to crash in a certain situation where a plane was being displayed in a new view.
- 1637848 - Fixed an issue where Precede would produce blank Member Detail reports in Postvue Databases with a SACS Reports database using the Generate Report dialog.
- 1640782 - Fixed an issue where Precede would remove CODE AA lines from the SACS model on AISC 14th+ code check options.
- 1662397 - Fixed an issue where reloading Precede files with Annotations would cause model rendering issues.
- 1664105 - Fixed an issue where Precede would not save the selected Perspective/Orthogonal Projection mode option across sessions.
PSI
- 1643182 - Fixed some issues with M-Theta units in PSI reporting and documentation. M value units are now consistently documented and reported as kN-m/cm across PSI and PIle3D.
SACS API
- 1594816 - Fixed an issue with modifying joint IDs with the SACS API using the Id property.
SACS Executive
- 1658622 - Fixed an issue with the Time History seismic analysis run file where a Force Time History input file for Wave Response would not be properly generated.
- 1658651 - Fixed an issue where the Graphical Post Processing option ‘Use OCI File as Model Input’ was not being saved to analysis run files.
Wave Response
- 1675611 - Fixed an issue where Wave Response would fail to read joints properly on the JLOD line if the joint name was less than 4 characters.





SACS is an integrated finite element structural analysis package of applications that uniquely provides for the design of offshore structures, including oil and gas platforms, wind farms, and topsides of FPSOs and floating platforms. SACS software has been used by offshore engineers around the world for nearly 40 years. Many of the world’s energy companies specify SACS software for use by their engineering firms across the lifecycle of offshore platforms. Three options of the SACS software packages are available: Offshore Structure Enterprise for comprehensive capabilities required for typical offshore jackets, wharfs, and dolphin structures; Offshore Structure Advanced for static topside and deck analysis; and Offshore Structure for static structural analysis

SACS Offshore Structure Product Overview
  

Bentley Systems, Incorporated is the global leader dedicated to providing architects, engineers, constructors, and owner-operators with comprehensive architecture and engineering software solutions for sustaining infrastructure. Founded in 1984, Bentley has nearly 3,000 colleagues in more than 45 countries, $500 million in annual revenues, and, since 2001, has invested more than $1 billion in research, development, and acquisitions.

Owner: Bentley Systems, Inc.
Product Name: SACS
Version: 2025
Supported Architectures: x64
Website Home Page : www.bentley.com
Languages Supported: english
System Requirements: Windows **
Size: 2.5 Gb

* System Requirements:


Minimum System Requirements

SACS CONNECT Edition (v14.0) has the following minimum system requirements:

- Pentium 4 or higher central processing unit (CPU).
- 512 megabytes (Mb) of RAM minimum. SACS performance is dependent on the size of the SACS model and the amount of available system resources; see SACS System PC Recommendations below.
- Microsoft Windows 7
- Microsoft Windows 8/8.1
- Microsoft Windows 10
- Internet Explorer 6 or later
- Windows Media Player (for analysis sound file support)
- A hard disk partition with 800 Mb of free space is required for the SACS installation.
- A video card with a chipset that supports OpenGL. A reference list may be found at Supported Graphics Cards
- CD-ROM or DVD-ROM drive.
- Network Server and Network Client Installations - The Local Area Ethernet Network should be 100 Base-T or greater. TCP/IP network protocol is supported.

SACS System PC Recommendations

SACS CONNECT Edition (v14.0) will run satisfactorily with most basic new PC configurations for both laptops and desktop PCs. For minimal configuration PCs or older PCs, the most notable degradation in performance will be in 3D rendering applications (Precede) and when model size exceeds 1000 joints. For model sizes greater than 1000 joints it is recommended that additional memory and storage be added as stated below. The following recommendations are for optimal SACS performance.

- RAM - 1024 megabytes (Mb) of free (1) RAM minimum, 4096 Mb or more is preferred. SACS will utilize all available RAM. SACS performance is dependent on the size of the SACS model and the amount of available system resources.
(1) Free RAM refers to available RAM after all operating system processes have been loaded.
- CPU - A multi-core CPU is recommended although not required.
- Operating System - Windows 7 Professional or later.
Note: All x86 versions of Windows cannot utilize more than 3200 Mb of RAM. The x64 version of Windows should be considered to take advantage of additional memory as well as future SACS upgrades.
- Hard Disk - 800 Mb of free space is required for the SACS installation. A SATA RAID 0 hard disk is recommended for optimal analysis performance.
Note: After the SACS installation is complete the free space used for executions should not fall below 50% of the total drive capacity. Total free space for execution should be at least 1 gigabyte for small models solutions. Very large model solution could require 400 gigabytes or more.
- Video Card - A video card that supports OpenGL or DirectX9 is required for all 3D rendering SACS products. It is very important to make sure that the graphics drivers on your computer are up to date for maximum performance and correct operation.

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