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VizSpark is an arc plasma simulation software developed by Esgee Technologies in the United States, founded by Professor Raja from the University of Texas at Austin, an expert in plasma simulation. It has the most achievements in the analysis of spark plugs and circuit breakers, with many case studies presented at academic conferences. In Japan, it has a strong track record primarily with automobile manufacturers and internal combustion engine-related companies, and it supports the analysis of devices such as: - Circuit breakers - Atmospheric pressure discharge - Ignition plugs (spark plugs) - Plasma torches (plasma jets) - Welding - Thermal spraying - High-intensity lamps

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VizSpark is an arc plasma simulation software developed by Esgee Technologies in the United States, founded by Professor Raja, an expert in plasma simulation at the University of Texas at Austin. It has the most achievements in the analysis of ignition plugs and circuit breakers, with many cases presented at academic conferences. In Japan, it has a strong track record, particularly among complete vehicle manufacturers and internal combustion engine-related manufacturers, and it supports the analysis of devices such as: - Circuit breakers - Atmospheric pressure discharge - Ignition plugs (spark plugs) - Plasma torches (plasma jets) - Welding - Thermal spraying - High-intensity lamps

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Simerics MP+ is a fluid simulation tool designed to calculate the transient characteristics of various volumetric pumps, compressors, and valves. It is developed based on the thermal fluid simulation tool Simerics MP and utilizes all the features of Simerics MP. 【The following fluid analyses are possible】 ■ Free surface flow ■ Flow considering the compressibility of air contained in liquids ■ Pressure pulsations and water hammer effects ■ Coupling of pump flow with the rigid body motion of valves and cam rings ■ Flow in low to medium vacuum conditions ■ Compressible flow (subsonic) ■ Cavitation ■ Time variation of flow field (velocity vectors, pressure), flow rate, fluid forces, and torque The biggest strength is the ability to automatically create meshes even for clearances on the order of micrometers, which is difficult with other general-purpose fluid analysis software!! Recently, there has been an increase in achievements with oil pumps for automotive and construction machinery, with examples such as vane pumps for power steering and CVTs, and trochoidal pumps for engine lubrication. *There is a lot of information that cannot be posted online. In particular, please see a demonstration for the actual mesh creation and movement!

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Simerics MP+ is a fluid simulation tool designed to calculate the transient characteristics of various volumetric pumps, compressors, and valves. It is developed based on the thermal fluid simulation tool Simerics MP and utilizes all the features of Simerics MP. 【The following fluid analyses are possible】 ■ Free surface flow ■ Flow considering the compressibility of air contained in liquids ■ Pressure pulsation and water hammer effects ■ Coupling of pump flow with the rigid body motion of valves and cam rings ■ Flow in low to medium vacuum conditions ■ Compressible flow (subsonic) ■ Cavitation ■ Time variation of flow field (velocity vectors, pressure), flow rate, fluid forces, and torque Its greatest strength is the ability to automatically create meshes for clearances in the micrometer range, which is challenging for other general-purpose fluid analysis software!! Recently, there has been an increase in applications for oil pumps used in automobiles and construction machinery, with examples including vane pumps for power steering and CVTs, as well as trochoid pumps for engine lubrication. *There is a lot of information that cannot be posted online. Particularly, we encourage you to see the actual mesh creation and movement through a demonstration!

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Simerics MP+ is a fluid simulation tool designed to calculate the transient characteristics of various volumetric pumps, compressors, and valves. It is developed based on the thermal fluid simulation tool Simerics MP and utilizes all the features of Simerics MP. 【The following fluid analyses are possible】 ■ Free surface flow ■ Flow considering the compressibility of air contained in liquids ■ Pressure pulsations and water hammer effects ■ Coupling of pump flow with the rigid body motion of valves and cam rings ■ Flow in low to medium vacuum conditions ■ Compressible flow (subsonic) ■ Cavitation ■ Time variations of flow fields (velocity vectors, pressure), flow rate, fluid forces, and torque The greatest strength is the ability to automatically create meshes with clearances in the µm range, which is difficult for other general-purpose fluid analysis software!! Recently, there has been an increase in achievements with oil pumps for automotive and construction machinery, such as vane pumps for power steering and CVTs, and trochoidal pumps for engine lubrication. *There is a lot of information that cannot be posted online. In particular, we encourage you to see the actual mesh creation and movement through a demonstration!

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The Availability Workbench (AWB) can calculate the operating rates and lifecycle costs of production lines and equipment based on equipment information (Note 1), and the following effects can be expected: ■ Expected Effects 1. Calculation of the expected operating rate for production lines when introducing new equipment. 2. Setting targets for each piece of equipment to meet the operating rate goals established in the production plan. 3. Estimation and response to vulnerable areas in production equipment and production lines. Note 1: Examples of input equipment information - Degradation curve (Note 2) - Maintenance-related items - Required personnel - Operational costs, etc. Note 2: Can also be substituted with MTTF/MTBF or failure performance data.

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PumpLinx has mesh templates for various types of pumps. By using templates tailored to the specific pump type being analyzed, the time and effort typically spent on mesh generation for fluid analysis of standard pumps can be significantly reduced and streamlined. For example, even for complex mechanisms like vane pumps, optimal meshes for analysis can be quickly and automatically generated by setting parameters such as the number of vanes based on 3D CAD data. Additionally, the integrated GUI allows for smooth handling of operations such as mesh generation, setting analysis conditions, executing calculations, and displaying results all on one screen, making the analysis easier and faster. Furthermore, many positive displacement pumps, including internal gear pumps, may experience cavitation during their operating cycle. PumpLinx supports cavitation analysis through the adoption of high-precision cavitation models and cavitation damage models.

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PumpLinx has mesh templates for various types of pumps. By using templates tailored to the specific pump type being analyzed, the time and effort typically spent on mesh generation for fluid analysis of standard pumps can be significantly reduced and streamlined. For example, even for complex mechanisms like internal gear pumps, optimal meshes for analysis can be quickly and automatically generated based on 3D CAD data by setting parameters such as the number of teeth. Additionally, the integrated GUI allows for smooth handling of operations such as mesh generation, setting analysis conditions, executing calculations, and displaying results all on one screen, making the analysis easier and faster. Furthermore, many positive displacement pumps, including internal gear pumps, may experience cavitation during their operating cycle. PumpLinx supports cavitation analysis through the adoption of high-precision cavitation models and cavitation damage models.

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Reliability Workbench is software based on reliability engineering that analyzes reliability, safety, and other factors. By utilizing features such as setting failure rates using reliability prediction models and fault tree analysis, it enables quantitative safety analysis and supports the smooth implementation of functional safety design in accordance with ISO 26262.

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Particle-PLUS is an excellent simulation software for numerical analysis of non-equilibrium plasma generated in rarefied gases. It can be utilized in applications such as magnetron sputtering, PVD, plasma CVD, capacitively coupled plasma (CCP), and dielectric barrier discharge (DBD). By utilizing the sputter particle module among various modules (refer to the product descriptions below), it is possible to determine the behavior of atoms sputtered from the target in plasma and neutral gas environments in magnetron sputtering devices, allowing for quick evaluation of flux distribution on opposing substrates. The analysis procedure involves using the particle and energy flux of the plasma obtained from the plasma module to determine the generation distribution and amount of sputter particles, and tracking their motion using a particle method known as the test particle method.

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PumpLinx has mesh templates for various types of pumps. By using templates corresponding to the pump type being analyzed, the time and effort spent on mesh generation, which typically takes a lot of resources for fluid analysis of standard pumps, can be significantly reduced and streamlined. For example, even for complex mechanisms like axial piston pumps, optimal meshes for analysis can be automatically and quickly generated based on 3D CAD data by setting parameters such as the number of cylinders. Additionally, the integrated GUI allows for smooth handling of operations such as mesh generation, setting analysis conditions, executing calculations, and displaying results all on one screen, making the analysis easier and faster. Moreover, in many volumetric pumps, including axial piston pumps, there is a possibility of cavitation occurring during the operating cycle. PumpLinx supports cavitation analysis through the adoption of high-precision cavitation models and cavitation damage models.

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The document titled "Data Mining and IoT Technology Utilization for Equipment Maintenance & Manufacturing Quality Control System" introduces the equipment maintenance and manufacturing quality control system developed by Wave Front Co., Ltd., which engages in the development and sales of software for electronic computers, analysis using software, design, and consultation. It clearly presents the positioning of various products such as the calendar-type equipment maintenance & manufacturing quality control system "FLiPS" and the reliability analysis and optimization system "AWB/RWB." [Contents] - Positioning of each product within the solution and the image of each product - Positioning of each product within the solution - Positioning of each product within the solution and data exchange between products *For more details, please refer to the catalog or feel free to contact us.

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◆Do you have any of the following concerns?◆ - You have collected failure information but don't know what to do with it. - You want to effectively utilize the collected failure information. - You want to analyze the failure information yourself but don't know the best method. - You want to connect the results of your analysis to actions that will reduce missed opportunities. ◆Organizing Failure Information and Building a System◆ Our company addresses the above concerns by: 1. Clarifying the problem awareness. 2. Presenting and selecting the key performance indicators (KPIs) that should be calculated. 3. Creating a database of failure information. 4. Conducting analysis using the current data. 5. Considering actions derived from the analysis results. 6. Building a system to carry out steps 1 to 5. We assist in organizing failure information and building a system that allows customers to select actions that are likely to reduce issues and failures leading to missed opportunities based on the analysis results. The above content assumes that failure information has been collected in advance, but we can also accommodate situations where failure information is extremely limited or not collected. (※1) ※1: Please contact us separately if you would like to see detailed materials.

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The "Anomaly Detection and Failure Prediction Solution through Data Mining" is a data mining service and system construction service provided by Wave Front Co., Ltd., which is engaged in the development and sales of software for electronic computers, as well as analysis, design, and consultation using software. This document presents a general image of service implementation and specific examples that reflect the types of inquiries we frequently receive. [Features] ■ Anomaly detection and failure prediction ■ Maximization of operational efficiency ■ Optimization of maintenance costs and cycles ■ Quality improvement *For more details, please refer to the catalog or feel free to contact us.

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"Materials Studio" A suite of molecular modeling/simulation tools for next-generation materials development equipped with quantum mechanics (density functional theory), classical mechanics (molecular dynamics calculations), mesoscale (dissipative particle dynamics calculations, etc.), statistics, and analysis/crystallization tools. 【Features】 ■ Simulation software that streamlines materials development Available for use by those engaged in research, development, design, and manufacturing across various industries and fields. ■ Supports various types of materials Effective in predicting how the structure of atoms and molecules relates to the physical properties and behaviors of materials in the fields of materials science and chemistry, aiding in the understanding of physical phenomena. ■ Examples Research and development of crystal growth, thin film formation, fuel cells, lubricants, catalysts, polymers and mixtures, metals and alloys, batteries and fuel cells, etc. ■ Enhanced visualization with "Materials Studio Visualizer" ■ All tasks, including creating crystal structures, setting calculation conditions, and displaying calculation results, can be performed on a single GUI screen. *For more details, please refer to the catalog or feel free to contact us.

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The electronic form system "ConMas i-Reporter" allows for faster and more accurate record reporting tasks than paper forms by creating forms on tablet devices. It is widely used across various industries wherever forms are needed, including manufacturing, maintenance inspection work, construction site records, warehouse management, and dental treatment. 【Benefits of Product Implementation】 - Daily report creation time reduced from 45 minutes to 5 minutes [Metal parts manufacturer] - Elimination of data entry to PCs, allowing for completion of creation and reporting on-site. [Construction company] - 60% reduction in man-hours leading to winning an internal improvement contest [Plastic products manufacturing and sales company] - Paperless initiative reducing approximately 120,000 sheets of paper [Pharmaceutical company] - Standardization of technology enabling newcomers to perform at the same level as veterans [Motorcycle manufacturer] *For more details about the product, please download the PDF document. sales@wavefront.co.jp 045-682-7070

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VizGlow is a general-purpose plasma simulation software developed by Esgee Technologies, Inc., founded by Professor Raja from the University of Texas at Austin, an expert in plasma simulation.

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VizSpark is an arc plasma simulation software developed by Esgee Technologies in the United States, founded by Professor Raja from the University of Texas at Austin, an expert in plasma simulation. It has the most achievements in the analysis of ignition plugs and circuit breakers, with many case studies presented at academic conferences. In Japan, it has a strong track record, particularly among complete vehicle manufacturers and key manufacturers, and supports the analysis of devices such as: - Circuit breakers - Atmospheric pressure discharges - Ignition plugs (spark plugs) - Plasma torches (plasma jets) - Welding - Thermal spraying - High-intensity lamps

• Other Software

Simerics MP+ is a fluid simulation tool designed to calculate the transient characteristics of various volumetric pumps, compressors, and valves. It is developed based on the thermal fluid simulation tool Simerics MP and utilizes all the features of Simerics MP. 【The following fluid analyses are possible】 ■ Free surface flow ■ Flow considering the compressibility of air contained in liquids ■ Pressure pulsations and water hammer effects ■ Coupling of pump flow with the rigid body motion of valves and cam rings ■ Flow in low to medium vacuum conditions ■ Compressible flow (subsonic) ■ Cavitation ■ Time variations of flow fields (velocity vectors, pressure), flow rate, fluid forces, and torque The greatest strength is the ability to automatically create meshes even for clearances in the µm range, which is difficult with other general-purpose fluid analysis software!! Recently, there has been an increase in achievements with oil pumps for automobiles and construction machinery, with examples including vane pumps for power steering and CVTs, as well as trochoidal pumps for engine lubrication. *There is a lot of information that cannot be posted online. Especially, we encourage you to see the actual mesh creation and movement in a demo presentation!!

• Other Software

Harpoon is a fully automated mesher that creates fluid analysis and structural analysis meshes for CAD models. It rapidly generates volume meshes as hex-dominant meshes (with the majority being hexahedra and the remainder being tetrahedra, pyramids, and wedges) and surface meshes as quad-dominant meshes (with the majority being quadrilaterals and the remainder being triangles).

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Particle-PLUS is plasma and rarefied fluid analysis software that uses the particle method. It is effective for research, development, and manufacturing of devices and materials using plasma. It is also capable of analyzing advanced physical models such as dual-frequency CCP and external circuit models. With comprehensive support, even those new to simulation or busy with experiments can reliably achieve results. The software employs a particle model to analyze plasma, utilizing the PIC/MC (Particle In Cell / Monte Carlo) method to track the motion of particles representing electrons and ions. Depending on the target plasma density, it efficiently switches between implicit methods for relatively high densities and explicit methods for low densities, allowing for effective solutions even for complex models. It excels in plasma simulations of low-pressure gases, where fluid modeling is particularly challenging. In addition to standard functions for CCP, ICP, and magnetron sputtering calculations, customization to fit customer devices is also available.

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**Features** - By adopting an unstructured mesh, it is possible to compute the exact shape of complex real devices. - High parallel efficiency allows for quick computation results even for large-scale shapes. - Since it employs a particle method, unlike fluid models, it can achieve a converged solution even with poor-quality computational grids. - With comprehensive technical support, even those new to simulation or busy with experiments can reliably obtain results. **Supports Various Cases** - Simulation of rarefied gas flow in a vacuum chamber. - Simulation of thin film generation in semiconductor manufacturing. - Chemical vapor deposition (CVD), organic light-emitting diode (OLED), molecular beam epitaxy (MBE). - Film deposition simulations that include chemical reactions like CVD. **Outputs Various Calculation Results** - Calculation of chemical reactions. - Calculation of chemical reactions from Arrhenius-type reaction data. - Calculations of dissociation, recombination, and molecular (atomic) exchange reactions. - Multiple reaction equations can be set up on the GUI. *For more details, please refer to the catalog or feel free to contact us.*

• Scientific Calculation and Simulation Software
• Analysis and prediction system

FLiPS is an asset management system developed with the aim of providing a user experience similar to Excel, and it is especially recommended for customers facing the following challenges: - A user-friendly interface that is easily accepted on-site and the desire to integrate with ERP systems - The need to centrally manage the quality of manufactured products and the condition of equipment - The desire to visualize the costs, schedules, and actuals necessary for equipment maintenance in a calendar format - The need to understand the frequency and number of unexpected failures and to establish a maintenance plan that reflects actual conditions - The desire to know the optimal cycle for regular inspections and replacements - The need to streamline budget formulation related to equipment purchase and maintenance management Additionally, it is now integrated with various IoT-related products, enabling the following capabilities: 1. Automatically creating and notifying maintenance and inspection plans when sensor data indicates thresholds may be exceeded, notifying both managers and workers 2. Integrating with tablet-compatible systems (such as i-Reporter) to aggregate and visualize information from the field.

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Reliability Workbench is a tool based on reliability engineering used to evaluate and analyze reliability and safety assessments related to functional safety, as well as maintenance content for equipment. It has been adopted by many companies both domestically and internationally as a tool for evaluating the reliability and safety of devices required by functional safety standards such as IEC61508 and ISO26262, with over 14,000 installations worldwide. Reliability Workbench is composed of modules for each function, addressing safety requirements such as those in ISO26262. For example: - Prediction: Failure rate calculations corresponding to various handbooks (such as SN29500) - Safety Assessment: Safety evaluations - Fault tree: Fault tree analysis - FMECA: Failure Mode, Effects, and Criticality Analysis and other modules as mentioned above. The main industries where it has been implemented are as follows: - Automotive - Railways - Aircraft - Plants - Industrial equipment

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1. What can and cannot be done with Excel FT diagrams can be created using Excel (or other Office tools). However, FT diagrams created in Excel cannot perform safety analyses such as cut set analysis or quantitative evaluations. They also cannot provide explanations for safety assessments of models at the system level. 2. What cannot be done without specialized tools Cut set analysis, common cause failures, dependent failures, and systematic failures are difficult to express without specialized tools. The Enterprise version allows for revision management during collaborative work. It can also integrate with external tools like DOORS to manage changes during collaboration. 3. Differentiating between Excel and FaultTree+ For FT diagrams that are not complex and do not have common cause failures, Excel is suitable as it can be created relatively easily without additional costs. For models that are ASIL C or higher, or those that involve common cause failures that cannot be intuitively identified, FaultTree+ with its robust analysis features is more appropriate. When considering tools for ISO26262 compliance, it is essential to ensure that cut set analysis can be performed.

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The Availability Workbench is software designed to support the implementation of RCM (Reliability-Centered Maintenance) and RAMS analysis (Reliability, Availability, Maintainability, and Safety analysis). The Availability Workbench focuses on the failures of components (system systems) that make up plants and systems, using reliability engineering methods to support the following: - Quantitative assessment of the availability of plants and systems - Development of maintenance plans aimed at eliminating causes of failure - Evaluation of the effectiveness of condition monitoring - Spare parts and workforce planning - Assessment of the lifecycle costs of plants and systems By using the Availability Workbench, it becomes possible to conduct Failure Mode, Effects, and Criticality Analysis (FMECA) and to predict reliability, availability, and lifecycle costs (LCC) with spare parts and other resources as constraints.

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