SaaS License Management

What is SaaS License Mangement?

SaaS license management, a component of software asset management (SAM), specifically addresses cloud-based applications and services. With contemporary business heavily reliant on the cloud, there is an increased need for improved tracking and management options for both new and established SaaS products. SaaS management emerges as the solution to meet this demand, offering comprehensive tools and strategies to efficiently oversee and optimize the usage of cloud-centric applications and services.

In the dynamic landscape of modern business, where cloud-based applications play a pivotal role, effective management of Software as a Service (SaaS) licenses is paramount. SaaS License Management has emerged as a strategic discipline within Software Asset Management (SAM), catering specifically to the complexities of cloud-centric software. In this blog, we’ll delve into the fundamentals of SaaS License Management, exploring its importance, key components, and how businesses can leverage it to optimize their software usage and expenditures.

Understanding SaaS License Management: SaaS License Management involves the oversight, optimization, and compliance management of licenses for cloud-based applications and services. Unlike traditional software, SaaS operates on a subscription-based model, making it essential for organizations to track and manage licenses efficiently to ensure cost-effectiveness and compliance.

Key Components of SaaS License Management:

  1. Inventory and Discovery: The first step in SaaS License Management is to create a comprehensive inventory of all cloud-based applications in use within an organization. Automated discovery tools help identify and track software assets, providing an accurate starting point for license management.
  2. License Compliance: Ensuring compliance with licensing agreements is crucial to avoid legal and financial repercussions. SaaS License Management tools help monitor usage against contractual terms, alerting organizations to potential compliance issues and mitigating risks.
  3. Cost Optimization: SaaS License Management enables businesses to optimize costs by identifying underutilized licenses or negotiating better terms with vendors. This proactive approach ensures that organizations only pay for the services they need and use.
  4. User Access Management: Controlling user access is vital for security and compliance. SaaS License Management tools allow organizations to manage user permissions, ensuring that only authorized personnel have access to specific applications.
  5. Renewal Management: Subscription-based models require vigilant renewal management. SaaS License Management assists in tracking renewal dates, allowing organizations to plan and budget for license renewals in a timely manner.

The Importance of SaaS License Management:

  1. Cost Efficiency: SaaS License Management helps organizations optimize costs by preventing over-licensing and identifying opportunities for cost savings.
  2. Compliance and Risk Mitigation: Ensuring compliance with licensing agreements mitigates legal and financial risks associated with unauthorized software usage.
  3. Strategic Decision-Making: By providing insights into software usage and costs, SaaS License Management empowers organizations to make informed decisions about their software investments and vendor relationships.

Conclusion: As businesses continue to embrace cloud technologies, the need for effective SaaS License Management becomes increasingly critical. Proactively managing licenses not only ensures compliance and cost efficiency but also positions organizations to harness the full potential of their cloud-based applications. In a digital era where agility and optimization are key, SaaS License Management emerges as a strategic ally for businesses navigating the complexities of the cloud.

DMARC Record Compliance

How Do I Check My DMARC Compliance?

Commencing DMARC implementation involves publishing a valid DMARC record. DMARC Director’s DMARC Record Checker is a diagnostic tool enabling you to view and validate the DMARC record for a domain.

As of February 2024, Yahoo and Google will enforce new DMARC requirements for high-volume senders. To assist in preparation, we’ve crafted a guide ensuring your emails remain uninterrupted.

Testing your DMARC record is essential to verify correct publication, prevent formatting errors, gain insights into potential additional parameters, and identify the destinations for your DMARC reports. Stay ahead of DMARC compliance with our comprehensive tools and insights.

In the realm of email security, DMARC (Domain-based Message Authentication, Reporting, and Conformance) stands as a crucial standard to protect against phishing and email fraud. Ensuring your organization’s DMARC compliance is paramount. In this blog, we’ll delve into the significance of DMARC, the role of a DMARC Record Checker, and how you can use this tool to verify and enhance your email security posture.

Understanding DMARC: DMARC acts as a shield, preventing malicious actors from exploiting your domain for phishing attacks. It works by authenticating emails and instructing email servers on how to handle messages that fail authentication. To ensure your DMARC policies are correctly configured and compliant, regular checks are essential.

The Role of DMARC Record Checker: The DMARC Record Checker is a diagnostic tool designed to simplify the verification process. It allows you to view the DMARC record of any domain and test the validity of the TXT record. This tool proves invaluable in ensuring your DMARC policies are accurately published, minimizing the risk of configuration errors.

Steps to Check DMARC Compliance:

  1. Access the DMARC Record Checker: Start by using a reliable DMARC Record Checker tool. dmarcian’s DMARC Record Checker, for example, provides a user-friendly interface for this purpose.
  2. Enter Domain Information: Input the domain you want to assess. The tool will retrieve and display the associated DMARC record, giving you insights into the current configuration.
  3. Verify TXT Record Validity: Ensure that the TXT record is valid and accurately published. The DMARC Record Checker will identify any discrepancies or errors in the record.
  4. Interpret Results: Analyze the results provided by the tool. Look for indications of correct publication, potential formatting mistakes, and any additional parameters that could enhance your DMARC policies.

Why Check Your DMARC Record?

  • Prevent Configuration Errors: Regular checks using a DMARC Record Checker help prevent mistakes in the formatting of your DMARC record, ensuring its effectiveness.
  • Insight into Extra Parameters: Gain more information about potential extra parameters that can be added to strengthen your DMARC policies.
  • Monitor DMARC Reports: Identify where your DMARC reports are being sent to, allowing you to stay informed about the performance and security of your email ecosystem.

In the era of evolving cybersecurity threats, maintaining DMARC compliance is a proactive step toward safeguarding your organization’s email integrity. Utilizing tools like the DMARC Record Checker empowers you to not only check your DMARC compliance but also strengthen your email security measures. Stay ahead of the curve and fortify your defenses with regular DMARC checks.

Industry Leading Panel PCs

What are the Uses for Industrial Panel PCs?

In the fast-paced world of industrial automation, where precision and efficiency are paramount, the role of Industrial Panel PCs has become increasingly indispensable. These rugged computing solutions offer a versatile range of applications across various industries, revolutionizing the way we control and monitor complex processes. In this blog, we will delve into the diverse uses of Industrial Panel PCs, showcasing their impact on productivity, reliability, and overall operational excellence.

  1. Manufacturing and Process Control: Industrial Panel PCs play a pivotal role in manufacturing environments by providing real-time control and monitoring capabilities. They can be integrated into production lines to oversee processes such as assembly, quality control, and packaging. The user-friendly touchscreens allow for intuitive control, facilitating quick adjustments and minimizing downtime.
  2. Human-Machine Interface (HMI): The intuitive touch interfaces of Industrial Panel PCs make them ideal for Human-Machine Interface applications. Operators can interact with the system through touch commands, enabling seamless communication and control over industrial machinery, ensuring optimal performance and safety.
  3. Data Visualization and Analysis: These robust computing solutions are equipped with powerful processors and high-resolution displays, making them excellent tools for data visualization and analysis. In sectors like energy, where monitoring and analyzing vast amounts of data are crucial, Industrial Panel PCs provide a clear and concise display of information, aiding decision-making processes.
  4. Transportation and Logistics: Industrial Panel PCs are widely used in transportation and logistics for fleet management, route optimization, and cargo tracking. The rugged design ensures reliability in diverse environmental conditions, making them suitable for use in vehicles and warehouses.
  5. Oil and Gas Industry: In the oil and gas sector, where harsh environmental conditions are the norm, Industrial Panel PCs are employed for monitoring and controlling drilling operations, pipeline systems, and refineries. Their durability and resistance to extreme temperatures make them crucial components in this demanding industry.
  6. Food and Beverage Processing: Industrial Panel PCs are integral to the food and beverage industry for process automation and quality control. From regulating temperature and humidity in storage facilities to overseeing production lines, these computing solutions contribute to the efficient and safe production of food products.
  7. Water Treatment and Utilities: The reliable and robust nature of Industrial Panel PCs makes them well-suited for use in water treatment plants and utilities. They are employed to monitor water quality, control treatment processes, and ensure the efficient distribution of water resources.

Industrial Panel PCs have become the backbone of modern industrial automation, providing a technological edge to various sectors. From manufacturing and healthcare to transportation and utilities, the versatility of these rugged computing solutions continues to drive efficiency, enhance control, and contribute to the overall advancement of industrial processes. As technology continues to evolve, the role of Industrial Panel PCs is poised to expand, ushering in a new era of smart and interconnected industries.

strengths and limitations in hospital computers

What are the strengths and limitations of computers in Medicine?

The National Library of Medicine, has a publication titled, “APPLICATION OF COMPUTER TECHNIQUES IN MEDICINE”. The article mentions the several applications and limitations of computers. 

Medical computers have become vital tools in the field of medicine, greatly impacting patient care, research, and healthcare administration. However, like any technology, they come with strengths and limitations.

Strengths:

  1. Efficiency and Accuracy: Medical computers can quickly process vast amounts of data and provide precise results. This is particularly beneficial in tasks like medical imaging, diagnostics, and treatment planning.
  1. Data Storage: Medical computers can store patient records, medical histories, and research data in electronic health records (EHRs). These records are easily accessible and can improve patient care by providing a complete medical history.
  1. Telemedicine: Medical computers enable telemedicine, allowing healthcare professionals to remotely diagnose and treat patients, increasing access to care, especially in remote or underserved areas.
  1. Research and Data Analysis: Medical computers help researchers analyze vast datasets, simulate medical conditions, and discover new treatments. They play a vital role in genomics, drug discovery, and epidemiological studies.
  1. Decision Support Systems: Medical computers assist healthcare professionals in making clinical decisions, providing recommendations based on medical knowledge and patient data.
  1. Medical Imaging: Medical computers are crucial in processing and interpreting medical images like X-rays, CT scans, and MRIs. They enhance the precision of diagnoses and assist in minimally invasive surgeries.
  1. Robot-Assisted Surgery: Medical computers enable robotic systems to assist surgeons in performing highly precise procedures, reducing invasiveness and recovery time.

To paraphrase the article regarding limitations:

Computers offer remarkable capabilities for data storage and complex analysis, but their limitations include the absence of decision-making abilities and human-like sensitivity, making data entry a challenge for medical professionals. Computer viruses, such as Joshi, Michael Angelo, DirII, and India, pose threats by multiplying through program usage and destroying files and data. Antivirus programs like Scan, CPAV, and Norton exist to combat these threats, though complete virus eradication remains challenging due to ongoing developments. Initiatives like the Faculty of Computers at the Military College of Telecommunications in Mhow provide computer courses to enhance computer literacy, but a noticeable gap persists in the adoption of clinical computing systems in the medical field. While these systems can address issues associated with traditional medical records, their implementation has been slow. There is an urgent need to raise computer awareness among medical professionals, encouraging them to familiarize themselves with computer applications in medicine and maximize their utility.

Here is a list of hospital computer limitations:

Limitations:

Data Security and Privacy Concerns: Storing sensitive patient information electronically on medical computers poses security risks, with the potential for data breaches and privacy violations.

Cost: Implementing and maintaining medical computer systems in healthcare can be expensive. Smaller medical facilities may struggle to invest in advanced technology.

Learning Curve: Healthcare professionals need to adapt to new medical computer technologies and software, which can be time-consuming and occasionally challenging.

Data Overload: The vast amount of medical information available can be overwhelming, leading to “alert fatigue” in clinical decision support systems, where healthcare providers may ignore important alerts.

Diagnostic Errors: While medical computers can enhance accuracy, they are not infallible. They may misinterpret data or images, leading to diagnostic errors if not used judiciously.

Reduced Patient Interaction: As medical computer technology advances, there’s a risk of reduced face-to-face patient interaction, which is an essential aspect of healthcare.

Uneven Access: Access to advanced medical computer-based healthcare services can be unequal, disadvantaging individuals in underserved or remote areas with limited connectivity.

Medical computers have revolutionized medicine, offering efficiency, data management, and diagnostic support. However, their use in healthcare also raises concerns about data security, cost, and the potential for reduced human interaction. Balancing these strengths and limitations is essential to ensure that medical computer technology in medicine serves the best interests of both healthcare providers and patients.

Tangent is the forefront pioneer of medical computers. Tangent carefully engineers computers while taking into consideration possible limitations. 

How to Set up DMARC for Free

How do I set up DMARC for free?

Setting up DMARC (Domain-based Message Authentication, Reporting, and Conformance) for free typically involves several steps, and while DMARC implementation is typically not entirely free due to some infrastructure requirements, you can achieve basic DMARC protection without incurring extra costs.

Here’s a simplified guide to help you get started:

1. Create a DMARC Record:

Access your domain’s DNS (Domain Name System) records, usually provided by your domain registrar or hosting provider.

Create a DMARC record in your DNS settings. The DMARC record specifies how receiving email servers should handle messages that fail authentication checks (SPF and DKIM).

2. Publish Your DMARC Policy:

In your DMARC record, set your desired policy. Common policies include “none” (no action), “quarantine” (send to spam or quarantine), or “reject” (block the message).

Specify an email address where you want to receive DMARC reports. These reports provide valuable insights into email authentication failures and can help you fine-tune your DMARC policy.

3. Implement SPF and DKIM:

To strengthen your email authentication, ensure that your domain has both SPF (Sender Policy Framework) and DKIM (DomainKeys Identified Mail) records in place. These records verify the sender’s identity and improve your email’s deliverability and security.

4. Monitor DMARC Reports:

As you begin to receive DMARC reports, review them regularly. They provide insights into who is sending email on your behalf and whether there are authentication issues.

5. Gradually Adjust Your DMARC Policy:

Start with a “none” policy, which only monitors email but takes no action. This allows you to observe the impact on legitimate emails.

After monitoring and addressing any issues, you can consider moving to a “quarantine” or “reject” policy if your legitimate emails are passing authentication checks.

While these steps allow you to set up basic DMARC protection for free, it’s essential to note that advanced DMARC implementations may require additional resources or services. Additionally, managing and interpreting DMARC reports can be complex, so you may find it beneficial to use free or low-cost DMARC management tools or services available on the market to streamline the process.

Setting up DMARC (Domain-based Message Authentication, Reporting, and Conformance) can be a highly effective way to bolster your email security and protect your domain from phishing attacks. However, navigating the intricacies of DMARC implementation, monitoring, and management can be complex and time-consuming. This is where a SaaS (Software as a Service) solution like DMARC Director steps in to make the entire process easier, more efficient, and ultimately more effective.

Streamlined Setup:

DMARC Director simplifies the DMARC setup process. Rather than manually configuring DMARC records in your DNS, you can use DMARC Director’s intuitive interface to create and manage your DMARC policies. This reduces the chances of misconfigurations, which can lead to unintended email disruptions.

Automated Reporting:

One of the key features of DMARC is the generation and analysis of DMARC reports (RUA and RUF reports) to gain insights into your email authentication. DMARC Director automates the collection and analysis of these reports, providing you with clear and actionable data on your email traffic. This simplifies the process of identifying issues and fine-tuning your DMARC policy for optimal protection.

Visibility and Control:

DMARC Director provides real-time visibility into your email ecosystem. You can see who is sending email on behalf of your domain, identify sources of email abuse, and take action as needed. With DMARC Director’s dashboard and alerts, you can stay informed and respond to potential threats promptly.

Comprehensive Protection:

By leveraging a SaaS solution like DMARC Director, you’re not just implementing DMARC; you’re enhancing your overall email security posture. DMARC Director integrates with other email security measures like SPF and DKIM, ensuring that your email authentication is robust and comprehensive.

User-Friendly Interface:

DMARC Director offers an easy-to-navigate interface that empowers users, whether they are experienced IT professionals or those new to email security. This user-friendly approach makes DMARC accessible to a wider audience, reducing the learning curve.

Reduced Resource Requirements:

Setting up DMARC internally can place a significant burden on your IT and security teams, requiring time, expertise, and dedicated resources. DMARC Director simplifies this process, allowing your teams to focus on other critical tasks while ensuring your email security.

Scalability:

DMARC Director‘s SaaS model is designed to accommodate the evolving needs of your organization. Whether you’re a small business or a large enterprise, the solution can scale to meet your requirements, ensuring you can maintain robust email security as your organization grows.

In conclusion, DMARC implementation is undeniably easier and more effective with a SaaS solution like DMARC Director. It simplifies the setup, automates reporting, enhances your email security, provides clear visibility and control, and reduces the resource demands on your organization. By leveraging the power of a DMARC SaaS solution, you can enjoy comprehensive email security while focusing on your core business objectives with peace of mind.

Software Asset Management

What is software asset management (SAM)?

Software Asset Management (SAM) is a strategic business practice that encompasses the efficient management of an organization’s software resources throughout their lifecycle. This comprehensive approach involves the acquisition, deployment, maintenance, utilization, and responsible disposal of software applications. In line with ITIL (Information Technology Infrastructure Library) standards, SAM is defined as the orchestration of infrastructure and processes essential for the effective management, control, and safeguarding of software assets.

At its core, SAM is designed to be an integral part of an organization’s information technology strategy. Its primary objectives include reducing IT costs, mitigating business and legal risks associated with software ownership and utilization, optimizing IT responsiveness, and enhancing end-user productivity. These objectives are crucial for organizations, especially large corporations, as they grapple with the complexities of software licenses, redistribution, and legal compliance.

SAM technologies play a pivotal role in tracking license expiration, enabling organizations to operate ethically and in adherence to software compliance regulations. This not only helps in minimizing legal expenses related to license agreement violations but also contributes to a company’s reputation management strategy, a vital facet of risk management and long-term business success for large corporations.

SAM, while essential, is just one facet of a broader discipline known as IT Asset Management, which encompasses both software and hardware resources that make up an organization’s computing and networking infrastructure.

Key Functions of SAM Within Organizations

The role of SAM within organizations can vary based on the organization’s software portfolio, IT infrastructure, available resources, and business goals. In most cases, SAM programs aim to strike a balance between the number of software licenses purchased and the actual licenses consumed. Beyond this fundamental goal, an effective SAM program ensures that software usage aligns with the terms and conditions specified in vendor license agreements. This is crucial for minimizing legal liabilities, especially in the event of an audit by a software vendor or third-party entities like the Business Software Alliance (BSA).

Broadly defined, the strategic goals of SAM often encompass:

Reducing software and support costs through volume contract negotiations and the elimination or reallocation of underutilized software licenses.

Enforcing compliance with corporate security policies and standards.

Enhancing worker productivity by deploying appropriate technology quickly and reliably.

Reducing overhead related to software management and support by streamlining and automating IT processes, including inventory tracking, software deployment, issue tracking, and patch management.

Establishing policies and procedures for the acquisition, documentation, deployment, usage, and retirement of software to achieve long-term SAM benefits.

Technology Enablers of SAM

SAM relies on several key technologies to support its core processes:

  • Software Inventory Tools: These tools intelligently discover and document software installations across the network, capturing vital information such as title, product ID, size, date, path, and version.
  • License Manager Solutions: These solutions act as intelligent repositories for license entitlements, enabling organizations to reconcile them against data collected by software inventory tools to determine their “Effective License Position.”
  • Software Metering Tools: These tools monitor software application usage across a network, providing real-time enforcement of compliance for applications licensed based on usage.
  • Application Control Tools: They restrict the execution of specific software applications on a computer, enhancing security and risk mitigation.
  • Software Deployment Tools: These tools automate and regulate the deployment of new software, ensuring consistency and efficiency.
  • Patch Management Tools: Automation of software patch deployment ensures that computers remain up-to-date, meeting security and efficiency standards.
  • Request Management Tools: These tools facilitate centralized requests for software products, capturing and assessing license requirements while managing and tracking procurement and deployment.
  • Product Catalog Tools: These tools gather essential product information, normalizing product naming conventions within the organization and facilitating integration with other SAM solutions.

Tangent has recently introduced its own Software Asset Management (SAM) solution, aptly named “Cubes.” In a move reminiscent of the SAM principles discussed earlier, Tangent has recognized the need to manage its software assets efficiently. Cubes, like the SAM technologies described in the previous content, serves as a tool for companies to gain better control over their software resources, reducing costs, ensuring compliance, and optimizing productivity.

What Computers Do Hospitals Use?

What Computers Do Most Hospitals Use?

Most hospitals use a variety of computer systems and devices to support their operations and provide healthcare services. The specific types of computers and systems used can vary depending on the hospital’s size, budget, and specific needs. Here are some of the common types of computers and systems used in hospitals:

  • Electronic Health Record (EHR) Systems: EHR systems are the backbone of modern healthcare facilities. These systems are typically accessed through desktop computers or workstations, and they store patient medical records, including medical history, treatment plans, test results, and more. Common EHR software providers include Epic Systems, Cerner, and Allscripts.  Tangent computers are Epic and Cerner compliant. 
  • Workstations on Wheels (WOWs): These are mobile computer carts equipped with computers or tablets on wheels. They are used by healthcare professionals, such as nurses and doctors, for bedside patient charting, medication administration, and accessing EHRs.
  • Radiology Information Systems (RIS) and Picture Archiving and Communication Systems (PACS): Radiology departments use specialized computer systems to manage and store medical images, including X-rays, MRIs, and CT scans. RIS and PACS systems are often connected to workstations used by radiologists.
  • Administrative Computers: Hospitals use administrative computers for tasks such as billing, scheduling, and managing hospital operations. These computers are often standard desktop or laptop computers. Tangent offers medical grade options of these devices that offer many benefits including preventing the spread of virus. 
  • Clinical Decision Support Systems: These systems assist healthcare providers in making clinical decisions by providing access to evidence-based guidelines and medical literature. They are typically accessed through desktop computers.
  • Laboratory Information Systems (LIS): Laboratories in hospitals use LIS to manage test orders, sample tracking, and test results. Computers in the laboratory are often dedicated to these tasks.
  • Pharmacy Information Systems: Hospitals employ pharmacy information systems to manage medication orders, dispensing, and inventory. Pharmacists and pharmacy technicians use computers for these purposes.
  • Mobile Devices: Healthcare professionals often use mobile devices such as tablets and smartphones to access patient records, reference materials, and communicate with colleagues. These devices may be integrated into the hospital’s network and security protocols.
  • Servers and Data Centers: Hospitals maintain servers and data centers to store and manage sensitive patient data, ensuring its security and accessibility.
  • Telemedicine and Telehealth Systems: With the growth of telehealth services, hospitals may use specialized video conferencing and telemedicine software, which can be accessed from a variety of devices, including desktop computers, laptops, tablets, and smartphones.

It’s important to note that the specific computer systems and devices used in hospitals can vary widely, and the choice of technology may depend on factors such as the hospital’s budget, infrastructure, and the availability of IT support. Additionally, hospitals must adhere to strict regulations and security standards to protect patient information, which can influence their choice of technology and software.

Why should hospitals use medical grade computers?

Hospitals should use medical-grade computers for several important reasons:

  1. Infection Control: Medical-grade computers are designed with infection control in mind. They often feature sealed, easy-to-clean surfaces that can withstand disinfection with harsh chemicals. This is critical in healthcare settings, where preventing the spread of infections is paramount.
  2. Durability: These computers are built to withstand the rigors of a hospital environment. They are often made with high-quality materials that can endure constant use, frequent cleaning, and exposure to a variety of environmental conditions.
  3. Safety and Compliance: Medical-grade computers comply with safety and regulatory standards specific to the healthcare industry, such as UL 60601-1 for electrical safety and IEC 60601-1-2 for electromagnetic compatibility. Ensuring compliance with these standards is essential for patient safety.
  4. Ergonomics: Medical-grade computers are designed to accommodate the specific needs of healthcare professionals. They often include features like adjustable mounting options and easy access to ports for attaching medical devices.
  5. Compatibility with Medical Equipment: These computers are often equipped with specialized interfaces and connectors to connect to medical devices like patient monitors, infusion pumps, and diagnostic equipment. This facilitates the integration of these devices into the hospital’s electronic health record (EHR) system.
  6. Longevity: Hospitals typically require reliable and long-lasting equipment. Medical-grade computers are built to provide consistent performance and have a longer lifespan compared to consumer-grade devices.
  7. Data Security: Healthcare facilities handle sensitive patient information, and medical-grade computers are designed with enhanced security features to protect this data. They often include hardware encryption, secure boot processes, and other security measures to prevent data breaches.
  8. Support and Service: Hospitals can expect better customer support and service for medical-grade computers. Manufacturers understand the unique demands of the healthcare industry and are more likely to provide responsive support and timely maintenance services.
  9. Regulatory Compliance: Medical-grade computers are designed to assist healthcare facilities in meeting regulatory requirements, such as HIPAA (Health Insurance Portability and Accountability Act) for patient data protection. Using non-compliant equipment could result in costly penalties.
  10. Seamless Integration: Medical-grade computers are built with healthcare-specific software and applications in mind. They are more likely to integrate seamlessly with electronic health record (EHR) systems, picture archiving and communication systems (PACS), and other healthcare software.
  11. Reduced Downtime: The reliability and durability of medical-grade computers lead to reduced downtime, which is crucial in healthcare. Healthcare professionals can’t afford to have their computers fail during critical patient care tasks.

In summary, medical-grade computers are purpose-built for healthcare environments, emphasizing infection control, safety, durability, and compliance with industry-specific regulations. Investing in these computers helps hospitals provide a higher standard of care, improve efficiency, and protect patient data while ensuring the longevity and reliability of their computing infrastructure.

DMARC Record CHeck

DMARC RECORD CHECK

The DMARC Record Lookup, also known as DMARC Check, serves as a diagnostic tool designed to analyze the DMARC Record associated with a queried domain. It not only displays the DMARC Record but also conducts a series of diagnostic assessments on the record.

Check your DMARC here

Domain-based Message Authentication, Reporting, and Conformance (DMARC) is a framework that facilitates the distribution of policies by organizations originating email messages. These policies convey domain-level preferences and guidelines related to message validation, disposition, and reporting.

DMARC Records establish a standardized approach for email originators to connect and validate domain identifiers with their messages. They also specify how to apply message policies based on these identifiers and provide reporting on email using these identifiers.

As per RFC 7489, DMARC, as a policy distribution mechanism, ensures the rigorous handling of email messages that fail authentication checks, such as SPF and/or DKIM. In cases where neither of these authentication methods succeeds, DMARC instructs the recipient on how to manage the message, which may involve sending it to the junk folder (quarantine) or rejecting it outright.

Checking your DMARC and ensuring your domain are protected are as easy as a click of a button. Setting up DMARC is handled a la carte by our concierge services. Simply click here: https://www.livehelpnow.net/lhn/lcv.aspx?d=40777&lhnid=34723