WAN acceleration is a specialized technology purpose-built to improve application performance over wide area networks (WANs).
WAN acceleration is designed to address the typical challenges of the network, such as latency, congestion, and bandwidth limitations. As a result, it creates a smooth, fast, and more dependable connection.
This is especially useful for organizations with telecommuting employees, remote offices, or heavy file movement.
This zero-touch installation capability makes the technology a highly pragmatic solution for IT environments that need to go as deep and wide as possible.
1. Define Wide Area Network (WAN)
A wide area network (WAN) is what connects enterprise branch offices, data centers, and users over large distances and geographies.
As its name implies, it enables instantaneous communication and data transfer between remote locations.
Local area networks (LANs) connect computers over a restricted area, like an office building or college campus.
On the other hand, complex wide area networks (WANs) allow regional, national, and global communication and data movement. WANs are integral for enterprises whose organizations depend on uninterrupted interaction between distant branch offices or geographically separated workforces.
Private leased lines, MPLS, and satellite links help build those interconnections. They are the connective tissue that enables global operations.
With remote work and the adoption of cloud-based applications, network traffic has increased exponentially.
This growth quickly becomes congested and creates performance bottlenecks. Not enough bandwidth means slower application response times, hurt productivity and user experience.
WAN acceleration bridges the gap by optimizing data transfer rates and reducing latency to ensure fast, reliable file transfers.
Small and medium-sized businesses face challenges today that were once reserved for only the largest of corporations. Consequently, WAN acceleration has quickly become a critical ingredient to keeping them up and running.
WAN acceleration can reduce data transfer times by as much as 33X. That translates to improved application performance regardless of where your users are located.
3. How WAN Acceleration Works
WAN acceleration uses a combination of proven technologies such as compression, caching, and traffic shaping to reduce the amount of data that needs to be transferred.
By reducing the size of data through compression and caching commonly accessed data, it reduces the network traffic volume by not sending as much data over the WAN.
WAN accelerators smartly control packet movements to lessen latency and prevent packet drops too.
Businesses have a range of solutions to consider, from software-based SD-WANs such as Silver Peak to hardware appliances such as Cisco’s routers.
These alternatives plug easily into any legacy infrastructure, providing peace of mind and predictability.
4. WAN Acceleration vs. WAN Optimization
WAN acceleration primarily improves application performance and reduces latency.
Unlike WAN optimization, WAN acceleration begins with a broader scope that involves bandwidth management and traffic prioritization.
For instance, WAN optimization uses application shaping technology to prioritize critical applications over less important traffic.
At the same time, acceleration increases the throughput of data transfers for those applications.
Both approaches are perfectly complementary, with WAN acceleration providing the high-speed response needed to more demanding use cases such as file sync or file replica.
Key WAN Acceleration Techniques
WAN acceleration brings together a number of technical approaches to make data transmission over wide area networks faster and more efficient, including overcoming latency, bandwidth constraints and network inefficiencies.
Choosing the best mix of techniques is key to achieving your organization’s specific goals.
When you know how these techniques work in conjunction, you will be better equipped to creatively address challenging WAN problems and greatly enhance network performance at large.
1. Data Caching Explained
Storing copies of frequently accessed data closer to the user, even on mobile devices, can greatly reduce WAN traffic.
By reducing the requirement of accessing the same data multiple times from centralized servers, caching enhances application response times and reduces latency.
This technique is effective on several fronts. This includes file-level caching, storing whole files in the cache, and block-level caching, which focuses on smaller chunks of data.
As an illustration, agencies implementing file-level caching with large multimedia files typically have much quicker load times.
Block-level caching especially benefits database-driven applications, where even at the application level, small queries are frequently repeated.
Solutions such as Riverbed SteelHead take an advanced approach to caching with impressive results in reduced data transfer and latency.
2. Data Deduplication Methods
According to Forrester, deduplication enables organizations to eliminate duplicative data before it’s ever transmitted, dramatically improving bandwidth consumption and transfer speed.
This approach has proven to be highly successful for companies moving very large data sets, like online retail stores replicating inventory across regional centers.
Deduplication makes storage and network more efficient by eliminating unnecessary copies of data.
Riverbed SteelHead is a perfect example of this, delivering data reduction of up to 99%, so your business runs seamlessly—even at peak usage times.
3. Compression Algorithms in Detail
Compression algorithms reduce the approximate size of files to allow for quicker file transfers. Lossless compression packages the original data without an ounce of extinction, which is why it’s ideal for sensitive files.
Lossy compression reduces detail to gain efficiency, perfect for images and video.
The trade-off here is between the speed of the compression and therefore the computational load.
Solutions such as Resilio Connect use proprietary compression that helps you do bulk transfer with the reliability of high-speed transfer even on flaky networks.
4. Protocol Optimization Strategies
The issue with standard protocols such as TCP is that they tend to do poorly in high-latency environments.
Protocol optimization improves these protocols or completely replaces them as in Resilio’s architecture based on UDP.
UDP is superb at handling packet loss and high latency.
These features make it an ideal candidate for WAN acceleration, ensuring mission-critical data is delivered reliably and efficiently.
5. Traffic Shaping and Prioritization
Traffic shaping manages network traffic by assigning priority to critical applications, ensuring they perform consistently during bandwidth constraints.
Advanced tools dynamically detect and prioritize traffic flows.
This keeps their operations running smoothly for mission critical services like VoIP and cloud-based applications.
Benefits of WAN Acceleration
WAN acceleration redefines network performance for organizations of all types.
It improves the effectiveness of scarce resources while guaranteeing years of future operational cost-savings. It addresses issues like latency, packet loss, and bandwidth constraints.
That’s why it delivers tangible performance benefits that address the challenges of today’s enterprises.
Here’s how WAN acceleration can take your IT infrastructure to the next level, saving you money and boosting productivity.
1. Boost Application Performance
WAN acceleration dramatically enhances remote application performance by minimizing latency and maximizing throughput, which is critical for real-time applications like video conferencing and VoIP.
By leveraging WAN optimization technology, organizations can eliminate packet loss and ensure efficient use of network bandwidth, especially in geographically distributed environments.
Companies implementing WAN optimization solutions report consistent and reliable performance for heavy enterprise applications such as Microsoft Teams and Salesforce.
This is particularly beneficial in today’s landscape where bandwidth limitations can hinder productivity.
Through WAN optimization techniques, organizations can stabilize access to critical platforms by streamlining data flow and replacing outdated protocols.
This significantly boosts the overall network performance, ensuring that important work continues without disruption.
WAN acceleration complements SASE architecture by incorporating built-in capabilities, such as SD-WAN, firewalls, and accelerated IPSec VPN.
This capability enables secure, high-speed access to applications across diverse connectivity options, making it an essential solution for businesses transitioning to hybrid or fully remote operations.
2. Maximize Bandwidth Usage
Maximizing effective bandwidth usage is one of the foundational technologies of WAN acceleration.
By compressing and deduplicating data packets, WAN acceleration speeds transfers by eliminating redundancy and unused bandwidth, guaranteeing 100% bandwidth utilization.
Large workloads, such as replication jobs, can even realize a remarkable 80% decrease in memory usage.
This phenomenal increase is possible due to optimizations in CPU usage, indexing, and storage I/O. This reduces the likelihood of network congestion, accelerates data transfer rates, and optimizes overall network efficiency.
Industries such as e-commerce and healthcare that need uninterrupted, fast access to data constantly reap the most rewards from WAN acceleration.
It gives organizations a centralized perspective on all their data transfers—helping them automatically optimize performance whether on-premises, in the cloud, or in hybrid environments.
3. Improve User Experience
Whether it’s fieldwork, R&D, or remote services, a responsive network improves employee happiness and efficiency in this new world of work.
WAN acceleration improves responsiveness of all applications, reduces lag time and delivers reliable performance even in the busiest hours.
Hood said these case studies from financial firms emphasize how WAN acceleration enables secure, instantaneous transactions, having an immediate, measurable effect on user confidence and participation.
4. Reduce Operational Costs
By optimizing data transfers and eliminating network inefficiencies, WAN acceleration lowers the burden on costly network upgrades.
On top of that hardware spend avoidance, organizations can benefit from accelerated performance with less hardware.
For instance, scalable WAN optimization solutions powered startups to use their resources without the headache and expensive revamp of an overhaul.
5. Strengthen Business Continuity
In the event of a disruption, WAN acceleration can provide the dependable connectivity you need to protect your business continuity.
Its feature-rich disaster recovery capabilities ensure high-speed backups and restores run smoothly, even during peak-load situations.
Organizations that have implemented WAN acceleration have experienced zero downtime during network outages, proving their business continuity.
Challenges and Considerations
While implementing WAN optimization technology provides considerable advantages, it comes with its own set of challenges.
Every organization will face different issues depending on their network architecture, applications, and mission requirements.
Addressing these considerations early on will help ensure the WAN optimization solution achieves its maximum potential.
1. Handling Encrypted Data
The challenge WAN optimization technology faces with encrypted data is significant.
While encryption protects all sensitive and critical information transmitted, it can negatively impact WAN performance by making major optimization techniques, like compression and data deduplication, much less effective.
For instance, encrypted packets can bypass caching systems altogether, reducing overall network performance.
Managing security and performance at scale is about finding the right balance.
Emerging solutions, such as protocol acceleration, simulate communication behavior to bypass specific inefficiencies, thereby increasing transfer speeds without compromising encryption integrity.
Cutting-edge WAN acceleration appliances, like Resilio, leverage UDP to efficiently address latency and packet loss in real time.
By focusing on data encryption, they balance optimized performance with strong security and privacy.
Taking an active approach to encryption challenges with WAN optimization solutions allows organizations to maintain performance while ensuring confidentiality remains uncompromised.
2. Application Compatibility Issues
WAN acceleration solutions are prone to compatibility risks with current applications, especially direct connect WAN acceleration solutions.
For instance, legacy software may not be able to take advantage of protocol optimization or caching, resulting in performance that is sometimes strong and sometimes not.
To counteract this, it’s critical to perform detailed testing of applications under the WAN acceleration umbrella prior to moving applications into production under WAN acceleration.
Compliance burdens, data brush fires, and operational disruptions can overwhelm organizations unless they adopt flexible solutions that enable them to configure custom solutions for specific application needs.
For instance, adopting specific rules on upload and download speed thresholds can help avoid confusion.
Effective implementation usually depends on the cooperation between IT departments and solution developers to find and address conflicting requirements before they escalate.
3. Adapting to Network Variability
Sudden wide area network (WAN) changes including increased latency and packet loss can have a counterproductive effect on WAN acceleration performance.
Adaptive strategies, such as ongoing monitoring and ability to make real-time adjustments, are important to deliver and sustain peak performance.
Resilio’s platform uses smart data deduplication and compression to solve the problem of latency.
This methodology ensures reliable data transmission, even in the difficult and complicated environments. By investing in tools that proactively adapt continuously to changes on the network, businesses can protect performance and increase reliability.
We see that organizations that value flexibility are more rarely impacted by worsening events and enjoy a higher return on their WAN acceleration investments.
4. Initial Implementation Costs
Cost is the primary driver for WAN acceleration deployments. Costs can range widely depending on the technical complexity of the solution.
This rings doubly true for small and medium-sized businesses (SMBs) with strict, constrained budgets. Notably, the upfront costs can seem daunting.
They often quickly recoup the initial investment through long-term savings from greater efficiency and reduced downtime.
This needs a real consideration of implementation costs—both upfront and recurring. Phased rollouts are just one strategy that enable private businesses to mitigate upfront investment costs while receiving desired impacts sooner through a partial rollout.
Over time, you would notice a smaller in-memory footprint and faster replication performance too.
It’s features like these, provided by Resilio, that will provide quantifiable savings that make your investment worthwhile.
5. Deployment Complexity
Deploying WAN acceleration solutions is not as simple, particularly in large environments where there are many different systems and applications to account for.
Without adequate planning, deployment can short circuit day-to-day operations or not provide the benefits originally anticipated.
Comprehensive evaluations of existing infrastructure, use case applications, and network conditions are critical prior to deployment.
Creating streamlined processes like an easy-to-understand step-by-step integration and pilot testing in controlled environments mitigate these potential disruptions.
Organizations that take a more measured approach to deployment, bolstered by the knowledge and expertise of application engineers, tend to have more seamless transitions and success stories.
WAN acceleration employs techniques such as data compression, caching, data deduplication, and protocol optimization to reduce latency, bandwidth usage, and network congestion.
Measuring the impact of WAN acceleration is critical in determining how it is helping to improve the health of your WAN and business operations.
Use attainable, realistic metrics and ongoing evaluation to measure success.
Armed with smart analysis, you’ll put your investment in WAN acceleration to work boosting real business-driving improvements.
By going through this process you will be able to gain maximum benefit from your IT infrastructure and make more informed decisions about future improvements.
1. Key Performance Indicators (KPIs)
KPIs are measurable standards that indicate how successful your WAN acceleration investments are.
Relevant KPIs are the measurable degrees to which latency has been reduced, throughput increased, or applications made to perform better. RiverBed™ SteelHead™ with up to 99% data reduction provides the results to enterprises.
It further accelerates applications up to 33x by addressing latency and congestion issues at their source.
Setting benchmarks for these KPIs gives you a starting point to compare against, making sure you’re measuring progress appropriately.
Companies have been successful using WAN acceleration by focusing on a few key KPIs.
A primary metric is a technology firm whose solutions are highly focused on reducing latency. Through their efforts, they were able to realize a staggering 40% reduction in load times for key applications.
Organizations that leverage the Resilio Platform’s P2P architecture avoid challenges such as packet loss.
This is a significant improvement to the reliability and impact of the KPI tracking.
2. Monitoring Network Performance
With ongoing, continuous monitoring, you can find and fix performance issues before they ever impact an end user.
Real-time adaptive tools play an important role in determining where bottlenecks are located, allowing immediate changes to be made and keeping the network flowing smoothly.
Resilio Platform utilizes an optimization technology based on UDP that accelerates data transfers.
This method minimizes packet loss and allows easier identification of improvement areas.
Compliance with monitoring practices such as establishing bandwidth utilization policy enables accurate measurement of WAN acceleration effectiveness on enhanced network performance.
Application response time has a huge impact on user experience and their overall satisfaction with the organization.
Measuring response times for mission-critical systems offers a tangible representation of WAN acceleration’s impact on performance improvement.
Only when you establish a baseline and measure improvement are you able to directly correlate enhanced response times with targeted optimizations.
Resilio Platform’s file chunking technology allows data to be processed independently of the whole. This speeds up file transfers, minimizes lag time, and improves general responsiveness.
4. Assessing Bandwidth Savings
Measuring bandwidth savings quantifies another important metric.
By calculating saved bandwidth and reallocating it to vital applications, organizations maximize efficiency.
Resilio Platform’s deduplication capability means only unique data moves, so organizations maximize their bandwidth investment.
One company calculated the time their staff saves using Resilio’s tools, delivering quantifiable proof of WAN acceleration’s impact.
WAN Acceleration Use Cases
WAN acceleration technology helps overcome some of the most pressing issues facing today’s networks.
It opens up new opportunities with ultra-fast, reliable, and secure global connectivity.
By utilizing WAN optimization techniques, it increases application performance by mitigating the effects of latency and packet loss. This ensures greater utilization of available bandwidth across all locations, whether it’s broadband, Wi-Fi, or cellular.
By minimizing the burden of management and facilitating secure, application-defined SD-WAN policies, WAN acceleration lays the foundation for scalable, efficient IT infrastructures.
1. Industries Benefiting Most
Sectors including financial services, medical, academic, research, and online retail are all heavy users of WAN optimization technologies.
In finance, where real-time data transfers are essential, reducing latency through WAN optimization can lead to faster transaction processing and better user experiences.
Securely and seamlessly transferring large medical imaging files between healthcare facilities not only improves patient care but also ensures HIPAA compliance.
This capability is enabling even faster diagnostics in the healthcare industry.
Education institutions, particularly those adopting hybrid learning models, rely on WAN optimization solutions to maintain seamless connectivity for students and staff.
E-commerce platforms, in particular, have greatly depended on WAN acceleration technology to guarantee consistent and speedy website experiences, even during peak shopping seasons.
A large regional hospital implemented WAN optimization techniques to enhance its telemedicine offerings.
This implementation sped up file transfer times for patient records—10x faster than when hosted on-prem. Similarly, an e-commerce company improved their cart abandonment rate by ensuring faster website load times during flash sales through effective WAN optimization capabilities.
2. Scenarios for Optimal Use
WAN acceleration is a lifesaver for enterprises with high-volume file transfer needs, particularly when using WAN optimization technologies.
It’s fantastic for syncing remote databases and replicating data between worldwide offices, especially for organizations migrating workloads to the cloud.
Enterprises with distributed teams also see tremendous value from WAN optimization solutions that enhance overall network performance.
Other important use cases include speeding application delivery for data-heavy applications like CAD and GIS while improving resiliency and connectivity in disaster recovery operations.
By aligning WAN acceleration with business goals, such as reducing downtime and scaling services globally, companies can ensure maximum value and efficient use of network bandwidth.
See how one logistics company leveraged WAN optimization capabilities to gain detailed supply chain performance data.
This approach not only decreased latency between regional hubs but also improved inventory management precision significantly.
3. Supporting Remote Offices
Distributed teams and remote branch offices are as a whole used to poor connectivity, especially when it comes to accessing centralized applications.
With WAN acceleration, distributed teams never have to worry about application performance, increasing user satisfaction and productivity.
By eliminating TCP’s constraints, remote workers can safely connect to important applications.
This can be done over any type of connectivity, even under harsh conditions such as high-latency and lossy environments.
One manufacturing engineering firm was able to better connect its U.S. Design offices with European operations.
This improved their project delivery timelines with file sync times cut by 50% in the process.
4. Enhancing Cloud Connectivity
As enterprises everywhere continue to migrate to cloud-based workflows, WAN acceleration is key to making that journey cloud connectivity friendly.
It accelerates data movement coming from on-premises systems to cloud-based services.
It provides effective bandwidth utilization as well as the acceleration for real-time cloud-based applications like CRM and ERP systems.
WAN Acceleration vs. SD-WAN
In the broader ecosystem of network optimization, WAN acceleration technology and SD-WAN serve distinctly different purposes.
Both WAN optimization solutions address unique challenges that today’s enterprises face.
Clearly understanding their roles, differences, and how they can complement each other is imperative for organizations looking for optimized and secure network infrastructures.
WAN acceleration is primarily about speeding up the way data moves around by minimizing the latency, compressing information and optimizing protocols.
When it comes to encrypted traffic and compressed files—which are becoming the norm in enterprise environments—it flounders.
SD-WAN deployments are built for flexibility and rapid expansion.
By load balancing between different last mile connections, it increases redundancy and overall network availability while making management easier.
In contrast to WAN acceleration, SD-WAN is much more capable at addressing application requirements and shifting traffic flows.
Solutions like Silver Peak and Riverbed enable organizations to transition toward secure access service edge (SASE) architectures, addressing modern security requirements.
Feature
WAN Acceleration
SD-WAN
Primary Focus
Data optimization
Traffic distribution & management
Best Use Case
Large file transfers
Multi-site connectivity & agility
Limitations
Encrypted/compressed traffic
Limited optimization for single streams
Scalability
Low
High
Integration and Synergy
Instead of perceiving these technologies as redundant solutions, enterprises have an opportunity to tap their collective power.
By integrating WAN acceleration with SD-WAN, enterprises can achieve a stronger network solution that optimizes data while intelligently managing traffic.
Take for example a healthcare provider moving big med imaging files from facility to facility—the value of WAN acceleration is immense.
SD-WAN ensures consistent and dependable connectivity over several locations.
This comprehensive strategy improves efficiency across the board and allows organizations to better address both immediate and future networking demands.
Organizations implementing this approach have delivered lower latency, increased application performance and better end-user experience.
Choosing the Right Solution
Choosing the appropriate solution will ultimately be based on your organization’s individual needs. Look at your network’s traffic profile, scalability needs, and what the vendors can do.
For instance, WAN acceleration increases performance for enterprises that need fast point-to-point communication. SD-WAN is ideal for organizations that value agility and centralized control above all.
A checklist for evaluating solutions includes:
Compatibility with existing infrastructure
Security features, particularly for encrypted traffic
Vendor support and reputation
Cost-effectiveness and scalability
Implementing WAN acceleration can enhance data transfer efficiency across wide area networks, leading to improved application performance and reduced latency.
Security is always a key part of any IT strategy—especially for today’s complex infrastructures.
As WAN acceleration increases the data transfer speed and efficiency, it needs to ensure that sensitive information is protected during its transmission as well.
By building an agile, high-performing security culture, enterprises can get the accelerated performance and innovation they need—without putting their data or systems at risk.
Here, we take a look at the most important areas of security in WAN acceleration.
1. Integrating Security Measures
Building security into WAN acceleration begins with the foundation.
A quality WAN will have security baked in from the ground up starting with encryption and authentication to keep all data transfers secure. Encryption protects data by making it unreadable to all but the intended recipient.
The second step—authentication—verifies the identities of users and devices initiating a connection to the network.
Organizations deploying Resilio Connect, for instance, find productivity gained through inherent security features make specialized security software redundant.
Adherence with data protection regulations is critical as well.
A centralized, securable WAN acceleration framework offers means to secure not only enforce compliance with these standards by proactively guarding sensitive data.
Healthcare providers work with sensitive and critical patient information.
To innovate in a secure way, they’ve taken the lead on operationalizing WAN acceleration by melding regulatory compliance with zero trust technologies.
This model guarantees user identity at every access point so the network remains secure, even on the inside.
2. Protecting Data in Transit
Data in transit is very susceptible to dangers such as interception or tampering. WAN acceleration needs to develop sound strategies to protect this highway of data, without sacrificing performance.
This application-specific approach ensures timely and correct data is delivered, uniformly across highly dynamic and sophisticated networks.
Best practices for IoT security, such as end-to-end encryption, use secure tunneling protocols such as IPSec, and TLS.
These form a security wrapper around sensitive data as it travels from endpoint to endpoint.
Centralized monitoring tools like Resilio’s Central Management Console allow IT teams to oversee data transfer activities, detecting and addressing anomalies before they escalate.
3. Addressing Vulnerabilities
Common vulnerabilities in WAN optimization technology include misconfigurations, outdated software, and insufficient monitoring.
Regular security assessments help identify and resolve these issues. Continuous monitoring, supported by tools like Resilio’s unified console, ensures real-time tracking of data activity across regions and environments, enhancing overall network performance.
As many of our examples show, organizations have found real solutions and mitigated these risks by taking proactive measures.
Optimizing memory usage is particularly important in WAN optimization techniques.
Resilio proves this with close to 80% reduction on replication jobs, which further shrinks the attack surface and simplifies operations while improving security.
Key Points to Consider
WAN acceleration can profoundly enhance application performance over wide area networks. It does a great job of addressing issues like latency and low bandwidth. It helps provide increased connectivity and access, particularly in hybrid or remote working situations.
A WAN, or Wide Area Network, links far-flung sites across geographies, allowing enterprises to keep their operations running smoothly across all locations. WAN acceleration further extends this connectivity by maximizing data transfer for instant accessibility and reducing delays.
Takeaway WAN acceleration smartens the network, boosting organizational savings and productivity while providing greater user satisfaction. These techniques include data caching, deduplication, compression, and protocol and traffic optimization. Each technique solves a distinct set of WAN challenges faster and more cost-effectively.
WAN acceleration delivers business benefits by increasing application performance, optimizing bandwidth utilization, lowering operational costs and improving user satisfaction. It protects against the loss of business operations by fostering reliable and efficient connectivity with partners and customers.
While WAN acceleration focuses on boosting application performance, it differs from WAN optimization, which employs broader strategies like traffic management. Clarifying these differences will help your organization select the best solution.
As network demands increase, future trends such as AI-based optimization, 5G and new network architectures will continue to impact WAN acceleration. Continuing to be informed and nimble will be key to taking advantage of these new developments.
Frequently Asked Questions
What is WAN acceleration?
WAN acceleration technology enhances data transfer efficiency over Wide Area Networks (WANs) by employing techniques like data compression, caching, and protocol acceleration to minimize latency and improve overall network performance.
How does WAN acceleration benefit businesses?
Furthermore, WAN optimization technology increases application responsiveness, allows for a better quality of experience for users, and conserves costly bandwidth resources.
More rapid data delivery through WAN accelerators means every employee — no matter their global location — can be productive in real-time.
What are common WAN acceleration techniques?
These key techniques, including WAN optimization technology like data deduplication, compression, and caching, can significantly enhance data transfer efficiency, reduce network latency, and streamline communication across WAN links.
Is WAN acceleration the same as SD-WAN?
No, in fact, they’re not—they’re antithetical. WAN acceleration technology focuses on optimizing data flow, while SD-WAN manages and routes traffic across networks.
Both make each other stronger, creating a comprehensive network solution.
What are some use cases for WAN acceleration?
It’s commonly used in remote office communications, cloud-based application access, and real-time data transfer, leveraging wan optimization technologies for industries like finance, healthcare, and media.
What are the security considerations for WAN acceleration?
Don’t forget to encrypt everything and ensure compliance with data protection regulations.
Since some WAN optimization technologies can circumvent security controls, adequate safeguards should be implemented.
How can I measure the impact of WAN acceleration?
Measure things such as latency improvements, application response time improvements, and bandwidth savings.
After implementation, utilize WAN optimization tools for performance monitoring to measure changes before and after compared to similar facilities.
Dimitri graduated with a degree in electronic and computing before moving into IT and has been helping people with their IT issues for the last 8 years. A regular contributor to BusinessTechWeekly.com, Dimitri holds a number of industry qualifications, writing on subjects focusing on computer networks and security.
