make a 3D image illustrating software integration, with the writing: “architecture”, “components” and “data”, with a high-tech design. Show the software in the form of a HOLOGRAPHIC cube in the center with program codes. Around it, insert computers, screens, servers, server clouds and computer chips.
184
FLUX
make a 3D infographic that illustrates software integration, with the writing: “architecture”, “components” and “data”, with a high-tech design. Show the software in the form of a HOLOGRAPHIC cube in the center with program codes. Around it, insert computers, screens, servers, server clouds and computer chips.
2120
FLUX
make a 3D image illustrating software integration, with the writing: “architecture”, “components” and “data”, with a high-tech design. Show the software in the form of a HOLOGRAPHIC cube in the center with program codes. Around it, insert computers, screens, servers, server clouds and computer chips.
152
FLUX
Create a professional A3 landscape academic cybersecurity poster using the uploaded architecture diagram as the main visual reference. Keep the uploaded network architecture diagram in the centre as the primary visual element, but redesign the overall poster to look cleaner, modern, and professional. Poster title: Deploying and Evaluating Wazuh for Network Security Monitoring in ICT Environments Subtitle: Healthcare Cloud Security Monitoring using Microsoft Azure and Wazuh SIEM Design style: professional university capstone poster modern infographic layout cybersecurity / cloud security theme clean academic presentation blue, green, white colour palette high readability minimal text, maximum visuals use professional icons and callout boxes Poster layout requirements: 1. Problem Statement (top left) Short concise text: Healthcare ICT systems face increasing cyber threats including unauthorised access, credential abuse, and patient data tampering. Traditional monitoring solutions often lack centralised real-time visibility and rapid threat detection. Use icons: hospital hacker warning alert cybersecurity shield 2. Methodology (left side vertical flowchart) Create a clean methodology flow with icons: Planning ↓ Local VM Prototype ↓ Client Feedback / Architecture Review ↓ Azure Cloud Migration ↓ Wazuh Deployment ↓ Attack Simulation ↓ Detection Evaluation 3. Network Architecture (centre, largest section) Use the uploaded architecture diagram as the primary visual. Improve clarity and readability while preserving technical structure: Secure Hub VNET Wazuh SIEM VNET Production VNET Non-Production Kali environment Admin access Wazuh Manager Wazuh Indexer Wazuh Dashboard Windows VM Ubuntu VM monitored patient files communication ports Do NOT change technical relationships. 4. Simulated Attack Scenarios (bottom left) Use icons and short labels: Unauthorized SSH Access Windows Authentication Failure Patient File Creation Patient Data Tampering Patient File Deletion Make it visual, not text-heavy. 5. Key Results (bottom centre) Create infographic metric boxes: 3 Active Wazuh Agents 5 Simulated Attack Scenarios Detected MITRE ATT&CK Mapping Enabled ACSC Incident Classification Applied Healthcare-specific Custom Detection Rules 6. Recommendations (bottom right) Use icons + short bullets: Automated incident response Email/SMS alert notifications Azure Sentinel integration Expanded endpoint monitoring Enhanced Windows threat detection Footer: CQUniversity | COIT20265 Capstone Project | UG1 Team Important: Use the uploaded architecture image as the foundation, but make the final poster look polished, presentation-ready, and visually professional.
010
Hero
A highly detailed digital architectural blueprint of Snowflake Data Cloud architecture, designed in a vintage parchment style with modern technical precision. The blueprint illustrates three primary layers: the Cloud Services layer at the top, the Compute layer (Virtual Warehouses) in the middle, and the centralized Storage layer at the bottom. The Cloud Services layer includes labeled components such as authentication, metadata management, query optimization, transaction management, and access control. The Compute layer showcases multiple independent virtual warehouses, each isolated and dynamically scalable, illustrated as separate engine modules connected to the storage layer. The Storage layer is represented as a centralized encrypted cloud storage system with micro-partitions, compression blocks, and metadata indexing clearly annotated. Cross-sectional technical diagrams reveal how queries flow from user to cloud services, then to compute clusters, and finally retrieve data from storage. Fine digital lines and technical annotations describe concepts like separation of storage and compute, auto-scaling, concurrency handling, failover mechanisms, and elastic performance scaling. The background resembles aged architectural drafting paper with subtle grid lines, watermark textures, and elegant handwritten-style technical notes. Soft glowing blue and white lighting evokes a futuristic cloud-computing atmosphere, blending traditional engineering blueprint aesthetics with advanced modern data architecture visualization. Ultra-high resolution, cinematic lighting, detailed linework, technical drawing style, professional engineering diagram, clean typography, sharp clarity, 4K quality.
15
Hunyuan
In a vibrant blue background, the text "STEP 2" stands out prominently in a bold, mint green font, followed by a clear directive: "Plant the workflow of your web application" rendered in a softer white. Above the text is an illustrated laptop that features a simplified design, facing slightly toward the viewer, enhancing the message about web application workflow. Thin green lines emanate from the laptop, suggesting a flow or connection, contributing to the tech-oriented theme. The overall layout is clean and modern, emphasizing clarity and guidance for users embarking on web application development.
029
Ideogram
A tall image depicting a hand-drawn architectural plan of a large scale event, meticulously sketched on a piece of paper. The paper is placed on a wooden table in a industrial office. The plan reveals a detailed and artistic representation of the event. Surrounding the paper are elements of a creative process, like a ruler, pencils, and an eraser, hinting at the manual drafting process.
179
DreamShaper
make a 3D image illustrating software integration, with the writing: “architecture”, “components” and “data”, with a high-tech design. Show the software in the form of a HOLOGRAPHIC cube in the center with program codes. Around it, insert computers, screens, servers, server clouds and computer chips.
184
FLUX
make a 3D image illustrating software integration, with the writing: “architecture”, “components” and “data”, with a high-tech design. Show the software in the form of a HOLOGRAPHIC cube in the center with program codes. Around it, insert computers, screens, servers, server clouds and computer chips.
152
FLUX
Create a professional A3 landscape academic cybersecurity poster using the uploaded architecture diagram as the main visual reference. Keep the uploaded network architecture diagram in the centre as the primary visual element, but redesign the overall poster to look cleaner, modern, and professional. Poster title: Deploying and Evaluating Wazuh for Network Security Monitoring in ICT Environments Subtitle: Healthcare Cloud Security Monitoring using Microsoft Azure and Wazuh SIEM Design style: professional university capstone poster modern infographic layout cybersecurity / cloud security theme clean academic presentation blue, green, white colour palette high readability minimal text, maximum visuals use professional icons and callout boxes Poster layout requirements: 1. Problem Statement (top left) Short concise text: Healthcare ICT systems face increasing cyber threats including unauthorised access, credential abuse, and patient data tampering. Traditional monitoring solutions often lack centralised real-time visibility and rapid threat detection. Use icons: hospital hacker warning alert cybersecurity shield 2. Methodology (left side vertical flowchart) Create a clean methodology flow with icons: Planning ↓ Local VM Prototype ↓ Client Feedback / Architecture Review ↓ Azure Cloud Migration ↓ Wazuh Deployment ↓ Attack Simulation ↓ Detection Evaluation 3. Network Architecture (centre, largest section) Use the uploaded architecture diagram as the primary visual. Improve clarity and readability while preserving technical structure: Secure Hub VNET Wazuh SIEM VNET Production VNET Non-Production Kali environment Admin access Wazuh Manager Wazuh Indexer Wazuh Dashboard Windows VM Ubuntu VM monitored patient files communication ports Do NOT change technical relationships. 4. Simulated Attack Scenarios (bottom left) Use icons and short labels: Unauthorized SSH Access Windows Authentication Failure Patient File Creation Patient Data Tampering Patient File Deletion Make it visual, not text-heavy. 5. Key Results (bottom centre) Create infographic metric boxes: 3 Active Wazuh Agents 5 Simulated Attack Scenarios Detected MITRE ATT&CK Mapping Enabled ACSC Incident Classification Applied Healthcare-specific Custom Detection Rules 6. Recommendations (bottom right) Use icons + short bullets: Automated incident response Email/SMS alert notifications Azure Sentinel integration Expanded endpoint monitoring Enhanced Windows threat detection Footer: CQUniversity | COIT20265 Capstone Project | UG1 Team Important: Use the uploaded architecture image as the foundation, but make the final poster look polished, presentation-ready, and visually professional.
010
Hero
A highly detailed digital architectural blueprint of Snowflake Data Cloud architecture, designed in a vintage parchment style with modern technical precision. The blueprint illustrates three primary layers: the Cloud Services layer at the top, the Compute layer (Virtual Warehouses) in the middle, and the centralized Storage layer at the bottom. The Cloud Services layer includes labeled components such as authentication, metadata management, query optimization, transaction management, and access control. The Compute layer showcases multiple independent virtual warehouses, each isolated and dynamically scalable, illustrated as separate engine modules connected to the storage layer. The Storage layer is represented as a centralized encrypted cloud storage system with micro-partitions, compression blocks, and metadata indexing clearly annotated. Cross-sectional technical diagrams reveal how queries flow from user to cloud services, then to compute clusters, and finally retrieve data from storage. Fine digital lines and technical annotations describe concepts like separation of storage and compute, auto-scaling, concurrency handling, failover mechanisms, and elastic performance scaling. The background resembles aged architectural drafting paper with subtle grid lines, watermark textures, and elegant handwritten-style technical notes. Soft glowing blue and white lighting evokes a futuristic cloud-computing atmosphere, blending traditional engineering blueprint aesthetics with advanced modern data architecture visualization. Ultra-high resolution, cinematic lighting, detailed linework, technical drawing style, professional engineering diagram, clean typography, sharp clarity, 4K quality.
15
Hunyuan
make a 3D infographic that illustrates software integration, with the writing: “architecture”, “components” and “data”, with a high-tech design. Show the software in the form of a HOLOGRAPHIC cube in the center with program codes. Around it, insert computers, screens, servers, server clouds and computer chips.
2120
FLUX
In a vibrant blue background, the text "STEP 2" stands out prominently in a bold, mint green font, followed by a clear directive: "Plant the workflow of your web application" rendered in a softer white. Above the text is an illustrated laptop that features a simplified design, facing slightly toward the viewer, enhancing the message about web application workflow. Thin green lines emanate from the laptop, suggesting a flow or connection, contributing to the tech-oriented theme. The overall layout is clean and modern, emphasizing clarity and guidance for users embarking on web application development.
029
Ideogram
A tall image depicting a hand-drawn architectural plan of a large scale event, meticulously sketched on a piece of paper. The paper is placed on a wooden table in a industrial office. The plan reveals a detailed and artistic representation of the event. Surrounding the paper are elements of a creative process, like a ruler, pencils, and an eraser, hinting at the manual drafting process.
179
DreamShaper
make a 3D image illustrating software integration, with the writing: “architecture”, “components” and “data”, with a high-tech design. Show the software in the form of a HOLOGRAPHIC cube in the center with program codes. Around it, insert computers, screens, servers, server clouds and computer chips.
184
FLUX
make a 3D image illustrating software integration, with the writing: “architecture”, “components” and “data”, with a high-tech design. Show the software in the form of a HOLOGRAPHIC cube in the center with program codes. Around it, insert computers, screens, servers, server clouds and computer chips.
152
FLUX
Create a professional A3 landscape academic cybersecurity poster using the uploaded architecture diagram as the main visual reference. Keep the uploaded network architecture diagram in the centre as the primary visual element, but redesign the overall poster to look cleaner, modern, and professional. Poster title: Deploying and Evaluating Wazuh for Network Security Monitoring in ICT Environments Subtitle: Healthcare Cloud Security Monitoring using Microsoft Azure and Wazuh SIEM Design style: professional university capstone poster modern infographic layout cybersecurity / cloud security theme clean academic presentation blue, green, white colour palette high readability minimal text, maximum visuals use professional icons and callout boxes Poster layout requirements: 1. Problem Statement (top left) Short concise text: Healthcare ICT systems face increasing cyber threats including unauthorised access, credential abuse, and patient data tampering. Traditional monitoring solutions often lack centralised real-time visibility and rapid threat detection. Use icons: hospital hacker warning alert cybersecurity shield 2. Methodology (left side vertical flowchart) Create a clean methodology flow with icons: Planning ↓ Local VM Prototype ↓ Client Feedback / Architecture Review ↓ Azure Cloud Migration ↓ Wazuh Deployment ↓ Attack Simulation ↓ Detection Evaluation 3. Network Architecture (centre, largest section) Use the uploaded architecture diagram as the primary visual. Improve clarity and readability while preserving technical structure: Secure Hub VNET Wazuh SIEM VNET Production VNET Non-Production Kali environment Admin access Wazuh Manager Wazuh Indexer Wazuh Dashboard Windows VM Ubuntu VM monitored patient files communication ports Do NOT change technical relationships. 4. Simulated Attack Scenarios (bottom left) Use icons and short labels: Unauthorized SSH Access Windows Authentication Failure Patient File Creation Patient Data Tampering Patient File Deletion Make it visual, not text-heavy. 5. Key Results (bottom centre) Create infographic metric boxes: 3 Active Wazuh Agents 5 Simulated Attack Scenarios Detected MITRE ATT&CK Mapping Enabled ACSC Incident Classification Applied Healthcare-specific Custom Detection Rules 6. Recommendations (bottom right) Use icons + short bullets: Automated incident response Email/SMS alert notifications Azure Sentinel integration Expanded endpoint monitoring Enhanced Windows threat detection Footer: CQUniversity | COIT20265 Capstone Project | UG1 Team Important: Use the uploaded architecture image as the foundation, but make the final poster look polished, presentation-ready, and visually professional.
010
Hero
In a vibrant blue background, the text "STEP 2" stands out prominently in a bold, mint green font, followed by a clear directive: "Plant the workflow of your web application" rendered in a softer white. Above the text is an illustrated laptop that features a simplified design, facing slightly toward the viewer, enhancing the message about web application workflow. Thin green lines emanate from the laptop, suggesting a flow or connection, contributing to the tech-oriented theme. The overall layout is clean and modern, emphasizing clarity and guidance for users embarking on web application development.
029
Ideogram
make a 3D infographic that illustrates software integration, with the writing: “architecture”, “components” and “data”, with a high-tech design. Show the software in the form of a HOLOGRAPHIC cube in the center with program codes. Around it, insert computers, screens, servers, server clouds and computer chips.
2120
FLUX
A highly detailed digital architectural blueprint of Snowflake Data Cloud architecture, designed in a vintage parchment style with modern technical precision. The blueprint illustrates three primary layers: the Cloud Services layer at the top, the Compute layer (Virtual Warehouses) in the middle, and the centralized Storage layer at the bottom. The Cloud Services layer includes labeled components such as authentication, metadata management, query optimization, transaction management, and access control. The Compute layer showcases multiple independent virtual warehouses, each isolated and dynamically scalable, illustrated as separate engine modules connected to the storage layer. The Storage layer is represented as a centralized encrypted cloud storage system with micro-partitions, compression blocks, and metadata indexing clearly annotated. Cross-sectional technical diagrams reveal how queries flow from user to cloud services, then to compute clusters, and finally retrieve data from storage. Fine digital lines and technical annotations describe concepts like separation of storage and compute, auto-scaling, concurrency handling, failover mechanisms, and elastic performance scaling. The background resembles aged architectural drafting paper with subtle grid lines, watermark textures, and elegant handwritten-style technical notes. Soft glowing blue and white lighting evokes a futuristic cloud-computing atmosphere, blending traditional engineering blueprint aesthetics with advanced modern data architecture visualization. Ultra-high resolution, cinematic lighting, detailed linework, technical drawing style, professional engineering diagram, clean typography, sharp clarity, 4K quality.
15
Hunyuan
A tall image depicting a hand-drawn architectural plan of a large scale event, meticulously sketched on a piece of paper. The paper is placed on a wooden table in a industrial office. The plan reveals a detailed and artistic representation of the event. Surrounding the paper are elements of a creative process, like a ruler, pencils, and an eraser, hinting at the manual drafting process.
179
DreamShaper
make a 3D image illustrating software integration, with the writing: “architecture”, “components” and “data”, with a high-tech design. Show the software in the form of a HOLOGRAPHIC cube in the center with program codes. Around it, insert computers, screens, servers, server clouds and computer chips.
184
FLUX
In a vibrant blue background, the text "STEP 2" stands out prominently in a bold, mint green font, followed by a clear directive: "Plant the workflow of your web application" rendered in a softer white. Above the text is an illustrated laptop that features a simplified design, facing slightly toward the viewer, enhancing the message about web application workflow. Thin green lines emanate from the laptop, suggesting a flow or connection, contributing to the tech-oriented theme. The overall layout is clean and modern, emphasizing clarity and guidance for users embarking on web application development.
029
Ideogram
make a 3D image illustrating software integration, with the writing: “architecture”, “components” and “data”, with a high-tech design. Show the software in the form of a HOLOGRAPHIC cube in the center with program codes. Around it, insert computers, screens, servers, server clouds and computer chips.
152
FLUX
A highly detailed digital architectural blueprint of Snowflake Data Cloud architecture, designed in a vintage parchment style with modern technical precision. The blueprint illustrates three primary layers: the Cloud Services layer at the top, the Compute layer (Virtual Warehouses) in the middle, and the centralized Storage layer at the bottom. The Cloud Services layer includes labeled components such as authentication, metadata management, query optimization, transaction management, and access control. The Compute layer showcases multiple independent virtual warehouses, each isolated and dynamically scalable, illustrated as separate engine modules connected to the storage layer. The Storage layer is represented as a centralized encrypted cloud storage system with micro-partitions, compression blocks, and metadata indexing clearly annotated. Cross-sectional technical diagrams reveal how queries flow from user to cloud services, then to compute clusters, and finally retrieve data from storage. Fine digital lines and technical annotations describe concepts like separation of storage and compute, auto-scaling, concurrency handling, failover mechanisms, and elastic performance scaling. The background resembles aged architectural drafting paper with subtle grid lines, watermark textures, and elegant handwritten-style technical notes. Soft glowing blue and white lighting evokes a futuristic cloud-computing atmosphere, blending traditional engineering blueprint aesthetics with advanced modern data architecture visualization. Ultra-high resolution, cinematic lighting, detailed linework, technical drawing style, professional engineering diagram, clean typography, sharp clarity, 4K quality.
15
Hunyuan
make a 3D infographic that illustrates software integration, with the writing: “architecture”, “components” and “data”, with a high-tech design. Show the software in the form of a HOLOGRAPHIC cube in the center with program codes. Around it, insert computers, screens, servers, server clouds and computer chips.
2120
FLUX
Create a professional A3 landscape academic cybersecurity poster using the uploaded architecture diagram as the main visual reference. Keep the uploaded network architecture diagram in the centre as the primary visual element, but redesign the overall poster to look cleaner, modern, and professional. Poster title: Deploying and Evaluating Wazuh for Network Security Monitoring in ICT Environments Subtitle: Healthcare Cloud Security Monitoring using Microsoft Azure and Wazuh SIEM Design style: professional university capstone poster modern infographic layout cybersecurity / cloud security theme clean academic presentation blue, green, white colour palette high readability minimal text, maximum visuals use professional icons and callout boxes Poster layout requirements: 1. Problem Statement (top left) Short concise text: Healthcare ICT systems face increasing cyber threats including unauthorised access, credential abuse, and patient data tampering. Traditional monitoring solutions often lack centralised real-time visibility and rapid threat detection. Use icons: hospital hacker warning alert cybersecurity shield 2. Methodology (left side vertical flowchart) Create a clean methodology flow with icons: Planning ↓ Local VM Prototype ↓ Client Feedback / Architecture Review ↓ Azure Cloud Migration ↓ Wazuh Deployment ↓ Attack Simulation ↓ Detection Evaluation 3. Network Architecture (centre, largest section) Use the uploaded architecture diagram as the primary visual. Improve clarity and readability while preserving technical structure: Secure Hub VNET Wazuh SIEM VNET Production VNET Non-Production Kali environment Admin access Wazuh Manager Wazuh Indexer Wazuh Dashboard Windows VM Ubuntu VM monitored patient files communication ports Do NOT change technical relationships. 4. Simulated Attack Scenarios (bottom left) Use icons and short labels: Unauthorized SSH Access Windows Authentication Failure Patient File Creation Patient Data Tampering Patient File Deletion Make it visual, not text-heavy. 5. Key Results (bottom centre) Create infographic metric boxes: 3 Active Wazuh Agents 5 Simulated Attack Scenarios Detected MITRE ATT&CK Mapping Enabled ACSC Incident Classification Applied Healthcare-specific Custom Detection Rules 6. Recommendations (bottom right) Use icons + short bullets: Automated incident response Email/SMS alert notifications Azure Sentinel integration Expanded endpoint monitoring Enhanced Windows threat detection Footer: CQUniversity | COIT20265 Capstone Project | UG1 Team Important: Use the uploaded architecture image as the foundation, but make the final poster look polished, presentation-ready, and visually professional.
010
Hero
A tall image depicting a hand-drawn architectural plan of a large scale event, meticulously sketched on a piece of paper. The paper is placed on a wooden table in a industrial office. The plan reveals a detailed and artistic representation of the event. Surrounding the paper are elements of a creative process, like a ruler, pencils, and an eraser, hinting at the manual drafting process.
179
DreamShaper
make a 3D infographic that illustrates software integration, with the writing: “architecture”, “components” and “data”, with a high-tech design. Show the software in the form of a HOLOGRAPHIC cube in the center with program codes. Around it, insert computers, screens, servers, server clouds and computer chips.
2120
FLUX
Create a professional A3 landscape academic cybersecurity poster using the uploaded architecture diagram as the main visual reference. Keep the uploaded network architecture diagram in the centre as the primary visual element, but redesign the overall poster to look cleaner, modern, and professional. Poster title: Deploying and Evaluating Wazuh for Network Security Monitoring in ICT Environments Subtitle: Healthcare Cloud Security Monitoring using Microsoft Azure and Wazuh SIEM Design style: professional university capstone poster modern infographic layout cybersecurity / cloud security theme clean academic presentation blue, green, white colour palette high readability minimal text, maximum visuals use professional icons and callout boxes Poster layout requirements: 1. Problem Statement (top left) Short concise text: Healthcare ICT systems face increasing cyber threats including unauthorised access, credential abuse, and patient data tampering. Traditional monitoring solutions often lack centralised real-time visibility and rapid threat detection. Use icons: hospital hacker warning alert cybersecurity shield 2. Methodology (left side vertical flowchart) Create a clean methodology flow with icons: Planning ↓ Local VM Prototype ↓ Client Feedback / Architecture Review ↓ Azure Cloud Migration ↓ Wazuh Deployment ↓ Attack Simulation ↓ Detection Evaluation 3. Network Architecture (centre, largest section) Use the uploaded architecture diagram as the primary visual. Improve clarity and readability while preserving technical structure: Secure Hub VNET Wazuh SIEM VNET Production VNET Non-Production Kali environment Admin access Wazuh Manager Wazuh Indexer Wazuh Dashboard Windows VM Ubuntu VM monitored patient files communication ports Do NOT change technical relationships. 4. Simulated Attack Scenarios (bottom left) Use icons and short labels: Unauthorized SSH Access Windows Authentication Failure Patient File Creation Patient Data Tampering Patient File Deletion Make it visual, not text-heavy. 5. Key Results (bottom centre) Create infographic metric boxes: 3 Active Wazuh Agents 5 Simulated Attack Scenarios Detected MITRE ATT&CK Mapping Enabled ACSC Incident Classification Applied Healthcare-specific Custom Detection Rules 6. Recommendations (bottom right) Use icons + short bullets: Automated incident response Email/SMS alert notifications Azure Sentinel integration Expanded endpoint monitoring Enhanced Windows threat detection Footer: CQUniversity | COIT20265 Capstone Project | UG1 Team Important: Use the uploaded architecture image as the foundation, but make the final poster look polished, presentation-ready, and visually professional.
010
Hero
A tall image depicting a hand-drawn architectural plan of a large scale event, meticulously sketched on a piece of paper. The paper is placed on a wooden table in a industrial office. The plan reveals a detailed and artistic representation of the event. Surrounding the paper are elements of a creative process, like a ruler, pencils, and an eraser, hinting at the manual drafting process.
179
DreamShaper
make a 3D image illustrating software integration, with the writing: “architecture”, “components” and “data”, with a high-tech design. Show the software in the form of a HOLOGRAPHIC cube in the center with program codes. Around it, insert computers, screens, servers, server clouds and computer chips.
152
FLUX
A highly detailed digital architectural blueprint of Snowflake Data Cloud architecture, designed in a vintage parchment style with modern technical precision. The blueprint illustrates three primary layers: the Cloud Services layer at the top, the Compute layer (Virtual Warehouses) in the middle, and the centralized Storage layer at the bottom. The Cloud Services layer includes labeled components such as authentication, metadata management, query optimization, transaction management, and access control. The Compute layer showcases multiple independent virtual warehouses, each isolated and dynamically scalable, illustrated as separate engine modules connected to the storage layer. The Storage layer is represented as a centralized encrypted cloud storage system with micro-partitions, compression blocks, and metadata indexing clearly annotated. Cross-sectional technical diagrams reveal how queries flow from user to cloud services, then to compute clusters, and finally retrieve data from storage. Fine digital lines and technical annotations describe concepts like separation of storage and compute, auto-scaling, concurrency handling, failover mechanisms, and elastic performance scaling. The background resembles aged architectural drafting paper with subtle grid lines, watermark textures, and elegant handwritten-style technical notes. Soft glowing blue and white lighting evokes a futuristic cloud-computing atmosphere, blending traditional engineering blueprint aesthetics with advanced modern data architecture visualization. Ultra-high resolution, cinematic lighting, detailed linework, technical drawing style, professional engineering diagram, clean typography, sharp clarity, 4K quality.
15
Hunyuan
In a vibrant blue background, the text "STEP 2" stands out prominently in a bold, mint green font, followed by a clear directive: "Plant the workflow of your web application" rendered in a softer white. Above the text is an illustrated laptop that features a simplified design, facing slightly toward the viewer, enhancing the message about web application workflow. Thin green lines emanate from the laptop, suggesting a flow or connection, contributing to the tech-oriented theme. The overall layout is clean and modern, emphasizing clarity and guidance for users embarking on web application development.
029
Ideogram
make a 3D image illustrating software integration, with the writing: “architecture”, “components” and “data”, with a high-tech design. Show the software in the form of a HOLOGRAPHIC cube in the center with program codes. Around it, insert computers, screens, servers, server clouds and computer chips.
184
FLUX
A highly detailed digital architectural blueprint of Snowflake Data Cloud architecture, designed in a vintage parchment style with modern technical precision. The blueprint illustrates three primary layers: the Cloud Services layer at the top, the Compute layer (Virtual Warehouses) in the middle, and the centralized Storage layer at the bottom. The Cloud Services layer includes labeled components such as authentication, metadata management, query optimization, transaction management, and access control. The Compute layer showcases multiple independent virtual warehouses, each isolated and dynamically scalable, illustrated as separate engine modules connected to the storage layer. The Storage layer is represented as a centralized encrypted cloud storage system with micro-partitions, compression blocks, and metadata indexing clearly annotated. Cross-sectional technical diagrams reveal how queries flow from user to cloud services, then to compute clusters, and finally retrieve data from storage. Fine digital lines and technical annotations describe concepts like separation of storage and compute, auto-scaling, concurrency handling, failover mechanisms, and elastic performance scaling. The background resembles aged architectural drafting paper with subtle grid lines, watermark textures, and elegant handwritten-style technical notes. Soft glowing blue and white lighting evokes a futuristic cloud-computing atmosphere, blending traditional engineering blueprint aesthetics with advanced modern data architecture visualization. Ultra-high resolution, cinematic lighting, detailed linework, technical drawing style, professional engineering diagram, clean typography, sharp clarity, 4K quality.
15
Hunyuan
Create a professional A3 landscape academic cybersecurity poster using the uploaded architecture diagram as the main visual reference. Keep the uploaded network architecture diagram in the centre as the primary visual element, but redesign the overall poster to look cleaner, modern, and professional. Poster title: Deploying and Evaluating Wazuh for Network Security Monitoring in ICT Environments Subtitle: Healthcare Cloud Security Monitoring using Microsoft Azure and Wazuh SIEM Design style: professional university capstone poster modern infographic layout cybersecurity / cloud security theme clean academic presentation blue, green, white colour palette high readability minimal text, maximum visuals use professional icons and callout boxes Poster layout requirements: 1. Problem Statement (top left) Short concise text: Healthcare ICT systems face increasing cyber threats including unauthorised access, credential abuse, and patient data tampering. Traditional monitoring solutions often lack centralised real-time visibility and rapid threat detection. Use icons: hospital hacker warning alert cybersecurity shield 2. Methodology (left side vertical flowchart) Create a clean methodology flow with icons: Planning ↓ Local VM Prototype ↓ Client Feedback / Architecture Review ↓ Azure Cloud Migration ↓ Wazuh Deployment ↓ Attack Simulation ↓ Detection Evaluation 3. Network Architecture (centre, largest section) Use the uploaded architecture diagram as the primary visual. Improve clarity and readability while preserving technical structure: Secure Hub VNET Wazuh SIEM VNET Production VNET Non-Production Kali environment Admin access Wazuh Manager Wazuh Indexer Wazuh Dashboard Windows VM Ubuntu VM monitored patient files communication ports Do NOT change technical relationships. 4. Simulated Attack Scenarios (bottom left) Use icons and short labels: Unauthorized SSH Access Windows Authentication Failure Patient File Creation Patient Data Tampering Patient File Deletion Make it visual, not text-heavy. 5. Key Results (bottom centre) Create infographic metric boxes: 3 Active Wazuh Agents 5 Simulated Attack Scenarios Detected MITRE ATT&CK Mapping Enabled ACSC Incident Classification Applied Healthcare-specific Custom Detection Rules 6. Recommendations (bottom right) Use icons + short bullets: Automated incident response Email/SMS alert notifications Azure Sentinel integration Expanded endpoint monitoring Enhanced Windows threat detection Footer: CQUniversity | COIT20265 Capstone Project | UG1 Team Important: Use the uploaded architecture image as the foundation, but make the final poster look polished, presentation-ready, and visually professional.
010
Hero
make a 3D image illustrating software integration, with the writing: “architecture”, “components” and “data”, with a high-tech design. Show the software in the form of a HOLOGRAPHIC cube in the center with program codes. Around it, insert computers, screens, servers, server clouds and computer chips.
184
FLUX
make a 3D image illustrating software integration, with the writing: “architecture”, “components” and “data”, with a high-tech design. Show the software in the form of a HOLOGRAPHIC cube in the center with program codes. Around it, insert computers, screens, servers, server clouds and computer chips.
152
FLUX
A tall image depicting a hand-drawn architectural plan of a large scale event, meticulously sketched on a piece of paper. The paper is placed on a wooden table in a industrial office. The plan reveals a detailed and artistic representation of the event. Surrounding the paper are elements of a creative process, like a ruler, pencils, and an eraser, hinting at the manual drafting process.
179
DreamShaper
make a 3D infographic that illustrates software integration, with the writing: “architecture”, “components” and “data”, with a high-tech design. Show the software in the form of a HOLOGRAPHIC cube in the center with program codes. Around it, insert computers, screens, servers, server clouds and computer chips.
2120
FLUX
In a vibrant blue background, the text "STEP 2" stands out prominently in a bold, mint green font, followed by a clear directive: "Plant the workflow of your web application" rendered in a softer white. Above the text is an illustrated laptop that features a simplified design, facing slightly toward the viewer, enhancing the message about web application workflow. Thin green lines emanate from the laptop, suggesting a flow or connection, contributing to the tech-oriented theme. The overall layout is clean and modern, emphasizing clarity and guidance for users embarking on web application development.
029
Ideogram