10 Ways to Optimize Proxy Speed for Multi-Accounts

Managing multiple accounts efficiently requires fast, reliable proxies. Slow proxies increase latency, disrupt workflows, and can trigger account bans. This article outlines 10 ways to improve proxy performance, including reducing latency by up to 40% and cutting bandwidth costs by 30–50%. Here’s a quick summary:

• Use high-speed datacenter proxies for tasks needing speed, but pair them with anti-detection tools for stricter platforms.
• Enable sticky sessions to maintain stable IPs during logins and transactions.
• Choose proxies near target locations to minimize latency.
• Balance traffic across multiple proxies to avoid overloading and detection risks.
• Leverage proxy manager tools for easier configuration and monitoring.
• Limit concurrent requests per IP to prevent errors and bans.
• Track proxy performance in real time to identify issues early.
• Enable connection pooling and caching to reduce setup times and save bandwidth.
• Use mobile proxies for high-trust accounts due to their legitimacy and success rates.
• Expand with provider infrastructure to scale operations smoothly.

These strategies boost speed, improve reliability, and reduce detection risks. Whether you're managing social media accounts or handling bulk tasks, these tips ensure better performance and fewer disruptions.

10 Ways to Optimize Proxy Speed for Multi-Account Management

1. Use High-Speed Datacenter Proxies

Speed and Latency Performance

Datacenter proxies stand out for their unmatched internet speeds. Unlike residential proxies, they operate on robust server infrastructure, avoiding the inconsistencies tied to home internet connections. Recent tests even showed a 40% reduction in latency. Lower latency means faster request handling, which is a game-changer for managing multiple accounts efficiently. For tasks where speed is critical, these proxies offer a clear advantage.

Compatibility with Multi-Account Management

While datacenter proxies excel in speed, they come with a caveat: platforms like Facebook, Amazon, and Google Ads often flag them as non-residential. Anti-fraud systems like MaxMind or IPQS can easily detect these server-based IP addresses since they don’t originate from residential networks. This makes them less suitable for managing accounts on platforms with strict security measures.

However, they shine in less restrictive environments, such as market research or public data scraping. To use them effectively on stricter platforms, pairing them with an anti-detection tool like GoUndetected can help. This ensures browser fingerprints stay clean and isolated, even when using server-based IPs.

Scalability for High-Volume Operations

When handling large-scale operations, datacenter proxies are a go-to choice. They support unlimited concurrent sessions and have no restrictions on targets. Since these proxies are generated in bulk within data centers, they’re also the most affordable option. Pricing is typically based on the number of IPs or flat monthly subscriptions, not bandwidth usage. This combination of scalability and cost-effectiveness makes them ideal for managing high volumes of accounts without overspending.

Reliability and Uptime

Datacenter proxies are built for reliability. Providers often promise 99.5% uptime, and spreading traffic across a proxy network can reduce downtime risks by as much as 99.9%. This consistency ensures your operations run smoothly, avoiding interruptions that could disrupt workflows or raise red flags on platforms. For anyone managing multiple accounts at scale, reliable, high-speed proxies are indispensable.

2. Set Up Proxy Rotation with Sticky Sessions

Compatibility with Multi-Account Management

Sticky session proxies allow you to maintain the same IP address for a set duration - typically between 1 and 60 minutes, though some providers extend this to 24 hours or even up to 7 days. This consistency is crucial for managing multiple accounts on platforms like Facebook, TikTok, or Amazon, which often flag sudden IP changes during active sessions.

"An IP shift mid-checkout triggers system errors; sticky proxies lock your identity, preventing such disruptions." - RapidSeedbox

By tying your session to a single IP through a backconnect gateway, sticky proxies ensure a seamless experience throughout login, browsing, or checkout steps. Tests have shown that using sticky sessions can improve success rates by over 40% in multi-step checkout processes compared to standard rotating proxies. Additionally, when using tools like GoUndetected, pairing sticky sessions with consistent browser fingerprints helps avoid mismatches in data such as Canvas, WebGL, or timezone settings, which could otherwise raise red flags if they don’t align with the proxy’s geolocation.

This steady connection not only safeguards account integrity but also reduces the need for repeated reconnections, saving time and minimizing disruptions.

Speed and Latency Performance

Sticky sessions enhance speed and reduce latency by reusing the same connection, leveraging HTTP keep-alive or HTTP/2 protocols. This minimizes the overhead caused by repeated TCP and TLS handshakes, cutting latency by 30% to 40%. Sticky sessions typically deliver response times of 50–200 ms, significantly faster than the 100–500 ms range seen with rotating proxies [18, 24]. Experimenting with different sticky durations can help strike the right balance between maintaining stability and refreshing IPs at appropriate intervals.

Reliability and Uptime

When it comes to reliability, sticky sessions outperform rotating proxies by a wide margin. Providers report uptimes of 99.9% to 99.99%, with success rates between 95% and 99%, compared to the 85% to 95% success rates typical of rotating proxies. To maximize this reliability, you can use session tags (e.g., user-session-abc123) to ensure the gateway assigns your requests to the same exit IP throughout a task. For even better results, pinning your proxy location to a city or region close to your target server can reduce latency and lower the risk of triggering fraud detection systems.

For tasks like managing social media or e-commerce accounts, longer sticky sessions (1–24 hours) are particularly effective, as they maintain authentication stability without requiring frequent re-logins.

3. Pick Proxies Near Your Target Locations

Speed and Latency Performance

The distance between your device and a proxy server directly impacts speed. For example, if you’re sending a request from New York to a proxy in Tokyo - nearly 6,835 miles apart - you’re adding about 55 milliseconds of baseline latency, and that’s before factoring in network congestion. By choosing proxies closer to your target site, you can significantly reduce these delays and improve overall performance.

"The physical distance between your device and the proxy server is one of the most direct speed influencers." - Edie, OwlProxy

Proxies located near the hosting site of your target reduce the number of "hops" your data has to make - each hop being a router or server your data passes through. Tests show that exclusive IPv4 proxies can achieve latencies as low as 30–80 milliseconds, while shared proxies might introduce delays of 200–500 milliseconds. For instance, scraping a website hosted in Frankfurt through a German proxy, rather than one in Sydney, can dramatically cut response times. This improved latency not only enhances speed but also ensures smoother account management.

Pairing optimized proxy locations with techniques like proxy rotation and sticky sessions helps minimize delays caused by physical distance.

Compatibility with Multi-Account Management

Proximity isn’t just about speed - it’s also key to avoiding detection. Proxy geolocation should align with the regional settings of your accounts to prevent triggering security alerts. Tools like GoUndetected ensure this alignment by matching consistent browser fingerprints with properly geolocated proxies, reducing the inconsistencies that platforms often flag.

"Unless you specifically need an IP from a distant location, always try connecting to a proxy geographically close to you first. Less distance usually means less latency." - David Foster, Proxy & Network Security Analyst, Evomi

It’s essential to regularly check your proxy’s location using geo-IP databases to ensure the IP hasn’t been reassigned without notice. Proper alignment not only helps avoid detection but also fosters a more stable, error-free connection.

Reliability and Uptime

Using proxies closer to your target server reduces the chances of connection failures. A distant proxy increases the likelihood of 408 timeout errors, where the connection takes too long, and the server stops waiting. Proxies with shorter distances complete request-response cycles faster, which is especially important when managing multiple accounts at once. In tests, optimizing proxy locations decreased average response times from 1.5 seconds to 0.9 seconds. For large-scale operations, this time savings can mean fewer failed requests and a more efficient workflow.

4. Balance Traffic Across Multiple Proxies

Balancing traffic across multiple proxies is a smart way to improve performance and reduce the chances of detection. It builds on techniques that optimize latency and stability, ensuring smooth operations.

Speed and Latency Performance

When you route all traffic through a single proxy, it can quickly become overwhelmed, slowing down requests and creating bottlenecks. By distributing requests across multiple proxies, you avoid this issue. Load balancing spreads the workload evenly, routing requests to the least congested or fastest proxy in your pool, keeping everything running efficiently.

For example, a test of 50,000 requests using a pool of 100 proxies showed a 40% drop in average latency - from 1.5 seconds to 0.9 seconds. The type of algorithm you use makes a big difference. Round Robin cycles through proxies in order, Least Connections sends traffic to less busy servers, and Response Time directs requests to the quickest nodes.

"Proxy servers optimize performance primarily through local caching of frequently accessed data and optimizing traffic routes, which reduces bandwidth usage by eliminating redundant data retrieval." - SimplyNode

Another technique, connection pooling, keeps pre-established connections ready to go, cutting out the delays caused by repeated handshakes. This setup, combined with intelligent caching, can save up to 90% of bandwidth.

Balancing traffic doesn’t just improve speed - it helps maintain unique network identities for each account, a crucial factor for multi-account management.

Compatibility with Multi-Account Management

Platforms often group accounts based on shared IPs or subnet usage. Even if browser fingerprints are different, accounts using the same proxy can be flagged as linked. Spreading traffic across a diverse proxy pool prevents this issue by ensuring each account operates with its own distinct IP.

"The IP address is actually the weakest link in multiaccount management." - Multilogin

Tools like GoUndetected complement this strategy by pairing unique browser fingerprints with well-distributed proxies. This ensures each profile has its own isolated network identity. For better results, target proxies by ISP and region rather than specific cities. Narrow targeting can shrink your IP pool and increase the risk of using already-blocked ("burned") IPs.

Scalability for High-Volume Operations

When handling large-scale tasks - like processing over 100,000 requests daily - a single proxy simply can’t keep up. You’ll need a pool of at least 1,000 rotating proxies to maintain a failure rate below 1%. Rotating proxies assign new IPs randomly, helping bypass rate limits and avoid detection.

To maximize efficiency, use weighted rotation. This means giving higher priority to proxies with better performance - those with low latency and high success rates. You can also mix proxy types: use residential proxies for sensitive operations and cheaper datacenter proxies for less demanding tasks. This approach balances cost with performance.

By keeping proxy traffic balanced, you reduce latency and ensure that high-demand operations run smoothly without disruptions.

Reliability and Uptime

Balancing traffic isn’t just about speed - it also strengthens your network’s reliability. If one proxy goes down or gets blocked, load balancing automatically reroutes traffic to a healthy node. This redundancy reduces downtime caused by single points of failure by up to 99.9%.

To maintain reliability, set up health monitoring to check each proxy’s status regularly. Configure your system to remove unresponsive or blocked proxies from the rotation automatically. For long-term tasks, use backoff logic - proxies that encounter errors are temporarily removed, with increasing cooldown times before they’re reintroduced. Track key metrics like success rates, response times, and CAPTCHA occurrences in real time to identify underperforming proxies and keep your network efficient.

With these strategies in place, your proxy network remains fast, secure, and ready to handle high-volume operations without interruptions.

5. Use Proxy Manager Tools

Managing multiple accounts efficiently often requires the help of proxy manager tools. These tools simplify operations by automating tasks like proxy configuration, monitoring, and optimization. Instead of manually setting up proxies for each account, you can import proxy lists in bulk, reducing the risk of errors and saving time.

Speed and Latency Performance

Speed and low latency are critical for smooth multi-account operations. Advanced proxy managers offer features like Smartpath routing to optimize performance. For instance, non-essential browser requests (like loading images or CSS files) can be routed through faster datacenter IPs, while residential proxies handle more critical tasks. Other features, like "Wi-Fi Split" in mobile proxy managers, help boost speed and minimize traffic usage. Pre-launch testing is another key feature, allowing you to test IP and browser fingerprint combinations before going live, ensuring everything runs without interruptions.

Compatibility with Multi-Account Management

Proxy managers are designed to work seamlessly with anti-detection browsers, creating isolated environments for each account. By integrating with tools like GoUndetected, these managers assign unique browser fingerprints and dedicated proxies to each profile, ensuring every account has its own secure digital identity. Bulk importing of proxies (in formats like ip:port:user:pass) is supported, and many tools integrate with automation frameworks such as Puppeteer and Selenium. Persistent sessions further enhance reliability by minimizing IP change alerts.

Scalability for High-Volume Operations

For those managing thousands of accounts, centralized control is a must. Proxy managers provide dashboards that let you oversee all accounts and proxies in one place. Enterprise-grade tools often include APIs for automating tasks like profile creation, proxy rotation, and data extraction. Tools like Multilogin, for example, provide extensive proxy pools, making it easier to scale operations without needing multiple subscriptions. Bulk proxy switching and real-time traffic monitoring are also available to handle high-volume demands efficiently.

Reliability and Uptime

Maintaining uninterrupted operations is crucial in multi-account setups. Proxy managers help by automatically detecting and replacing failing proxies, ensuring consistent performance. Premium tools go a step further, monitoring proxy health in real time and swapping out unstable proxies without disrupting activity. IP quality filters are another valuable feature, blocking low-reputation or blacklisted IPs to improve account stability and survivability. These features ensure your system runs smoothly, setting the stage for further optimizations.

6. Control Concurrent Requests per IP

Sending too many requests through a single proxy IP can lead to bottlenecks and errors. Most providers cap connections at 100 per IP, and exceeding this limit often results in errors like "503 Service Unavailable" or "Too Many Connections".

Speed and Latency Performance

When a proxy is overloaded, network timeouts and high latency become common. For example, errors like "cURL error 56: Proxy CONNECT aborted due to timeout" are typical in such scenarios. Under optimal conditions, premium residential proxies can respond in as little as 1 second. However, pushing them beyond their capacity causes delays that stand out as unnatural, potentially triggering anti-fraud systems. After all, real users don’t experience such erratic lag patterns.

Balancing speed and latency is crucial for imitating genuine user behavior, which ties directly into the next point.

Compatibility with Multi-Account Management

Keeping requests per IP within reasonable limits helps mimic authentic user activity. Platforms use rate-limiting to detect and block automation, so overwhelming a single IP with too many requests can lead to bans. If you're managing multiple accounts using tools like GoUndetected, spread your traffic across proxies to stay well below the connection threshold. For operations exceeding 100 concurrent requests, distribute the load across several proxies instead of overloading one.

Scalability for High-Volume Operations

Scaling up requires careful load distribution. For instance, handling 1,280 concurrent requests can be managed by spreading them across 13 proxies, ensuring each stays under the 100-request limit. Implementing a retry strategy - such as waiting 1 second or switching to a different proxy when a timeout occurs - can also improve performance.

Proper load management not only supports high-volume operations but also helps maintain long-term stability.

Reliability and Uptime

Keeping connection loads realistic ensures consistent performance and can support uptimes as high as 99.99%. To maintain reliability, use randomized proxy rotation in your scripts, cycling through a list of authorized proxy hostnames. Additionally, reduce unnecessary resource requests - like images, JavaScript, or CSS files - to minimize the total connections per IP.

7. Track Proxy Performance with Real-Time Analytics

Keeping a close eye on your proxies in real time can help you catch "soft failures" before they become a bigger problem. These failures might not seem obvious - like when a request technically succeeds but returns a CAPTCHA or the wrong location-specific page. Without active monitoring, this could mess up your datasets for days without you even realizing it. By combining real-time analytics with earlier optimization methods, you can ensure your proxy network stays on track.

Speed and Latency Performance

Break down each request into three segments: client-to-proxy, proxy-to-origin, and server processing. Don’t just focus on average latency - dig deeper into the p95 and p99 percentiles. These metrics reveal timeouts that might affect up to 5% of your requests.

"The clearest must-have metrics we track are: latency (round-trip delay from request to response), packet loss percentage (data that never arrives), jitter (variation in latency), and connection success rate (percentage of attempts that complete handshake)." – Mitch Johnson, Founder and CEO, Prolink IT Services

To keep things running smoothly:

• Datacenter proxies: Aim for a median latency below 200ms and a p99 under 500ms.
• Residential proxies: Keep the median below 500ms and the p99 under one second.
• Watch for jitter over 30ms, as it can mess with automated systems by causing irregular packet arrivals.

Compatibility with Multi-Account Management

Real-time analytics can also help you spot potential bans early. Look out for surges in HTTP 403 (Forbidden) or 429 (Too Many Requests) errors - these often point to flagged IPs or overly aggressive request rates. A smart move? Configure your system to flag or rotate any IP that gets three or more 403 errors in a short time frame. Also, make sure proxy-reported locations match browser settings to avoid detection. If you’re using tools like GoUndetected for managing accounts, cross-check geo-IP data with browser fingerprints regularly to maintain a consistent digital identity.

Scalability for High-Volume Operations

Real-time data plays a key role in managing traffic and ensuring smooth scaling. Set soft thresholds to deprioritize proxies that exceed certain latency limits - like anything over 2,000ms. This data also lets you automatically swap out underperforming IPs to keep your network healthy. A good benchmark? Maintain a connection success rate above 97% and packet loss below 1%.

Reliability and Uptime

Pay attention to latency variance - it’s a strong indicator of connection consistency. High variance can disrupt headless browsers and time-sensitive automation tasks. For ongoing operations like price monitoring or web crawling, even a tiny 0.1% downtime could lead to missed opportunities, especially during flash sales. Top-tier providers often aim for 99.99% uptime to ensure seamless multi-account operations. By tracking performance consistently, you can strengthen the reliability measures discussed earlier.

8. Turn On Connection Pooling and Caching

Connection pooling and caching are powerful tools for reusing existing connections and storing frequently accessed data. These techniques help reduce connection overhead and ease the load on your infrastructure, which improves speed and overall performance - especially for multi-account workflows.

Speed and Latency Performance

TCP connection pooling keeps connections open to frequently visited destinations, avoiding the need for repeated handshakes. Similarly, TLS session resumption reuses cryptographic parameters from earlier HTTPS connections, while DNS caching eliminates redundant domain lookups, boasting hit rates of over 90%. Together, these methods slash connection setup times by 60–80%.

"Proxy performance bottlenecks often stem from inefficient connection management rather than bandwidth limitations or server capacity." – Ziad Shamndy, Scrapfly

To take advantage of these optimizations, enable Connection: keep-alive headers to maintain TCP connections across requests. Additionally, configure your system to use HTTP/2 multiplexing where possible, allowing multiple requests to share a single connection. This can increase throughput by an impressive 300–500%.

Compatibility with Multi-Account Management

Connection pooling adds another layer of efficiency to earlier strategies that stabilize IP and session performance. In multi-account setups, persistent sessions are key. Reusing browser sessions and caching elements such as cookies and session states eliminates the need to reload a fresh browser for every page visit. This can reduce proxy bandwidth by up to 90%. It also minimizes the risk of detection by bot systems, which often flag frequent "fresh" logins. Tools like GoUndetected leverage connection pooling to maintain stable session states across different profiles, keeping each account's digital fingerprint consistent - even when pooled connections are reused.

To avoid hitting rate limits, consider refreshing your connection endpoint roughly every 20 pages. You can also use conditional request headers like ETag or If-None-Match to fetch resources only when they've changed, saving bandwidth and preventing unnecessary downloads.

Scalability for High-Volume Operations

When managing large-scale operations involving dozens or even hundreds of accounts, connection pooling becomes indispensable for maintaining consistent performance. Configure settings like limit_per_host and max_pool_size to avoid exhausting your connection pool. Setting a keepalive_timeout (around 30 seconds) ensures connections stay active between requests. Additionally, resource stubbing - blocking unnecessary assets such as images, fonts, and media files - can reduce page load sizes by up to 70% and cut proxy bandwidth usage by 30–50%.

These adjustments not only streamline operations but also help you scale efficiently without compromising performance.

9. Deploy Mobile Proxies for High-Trust Accounts

Mobile proxies provide an edge when managing high-trust accounts, offering improved performance and reliability for multi-account operations. By routing traffic through major U.S. carriers like AT&T, Verizon, and T-Mobile, mobile proxies offer greater trust compared to datacenter IPs, which often reveal automated patterns. These proxies use genuine carrier devices, making them a reliable choice for managing high-value accounts.

Speed and Latency Performance

Speed plays a critical role in high-trust operations. Modern 5G mobile proxies deliver latency between 50–200ms, while 4G LTE proxies range from 200–800ms, outperforming most residential options.

"Mobile proxies represent the pinnacle of proxy technology in 2025, offering unmatched legitimacy through authentic carrier infrastructure and CGNAT technology." – Technical Team, MobileProxies.org

For workflows where speed is essential - like real-time bidding or flash sales - 5G mobile proxies are the best option. They provide 4x better latency and bandwidth exceeding 100 Mbps. This performance ensures smoother operations, especially when managing multiple high-trust accounts.

Compatibility with Multi-Account Management

Mobile proxies excel in multi-account management thanks to Carrier-Grade NAT (CGNAT) technology. With CGNAT, mobile carriers assign a single IP address to multiple users, reducing the likelihood of platforms blocking these IPs. This results in a 98–99.8% account preservation rate for social media management.

Sticky sessions, which hold the same IP for 10–60 minutes, mimic natural mobile behavior during logins and posts. When using tools like GoUndetected, ensure that browser fingerprint settings - such as timezone, locale, and screen size - match the proxy's region. For instance, pairing a French mobile IP with a Canadian timezone could trigger region mismatch bans. Aligning these details is crucial for maintaining trust and ensuring reliable performance.

Reliability and Uptime

Mobile proxies boast 95–99.8% success rates in bypassing bot detection on highly secure platforms. Premium providers report uptime rates near 99.9%, ensuring consistent accessibility for high-volume operations. Since mobile IPs originate from trusted carriers, they are less likely to be flagged, unlike datacenter IPs, which can be blacklisted within hours.

To maintain natural user behavior, rotate proxies based on specific events - like connection resets or rate-limit spikes - instead of relying on fixed timers.

Despite their premium performance, mobile proxies remain cost-effective, priced at $1–$3 per port per day. This investment saves money in the long run by reducing ban rates and the need for frequent account replacements.

10. Expand with Provider Infrastructure

Scaling beyond single-IP setups opens the door to performance improvements that manual management simply can't achieve. Building on earlier techniques like connection pooling and caching, expanding your provider infrastructure takes proxy performance to the next level. By leveraging distributed proxy networks with load balancing, traffic is spread across multiple nodes, eliminating bottlenecks. For instance, during a load test of 50,000 requests across 100 proxies, average latency dropped by 40%, going from 1.5 seconds to 0.9 seconds.

Speed and Latency Performance

Provider-level enhancements reduce handshake overhead by reusing advanced protocols. With HTTP/2 multiplexing, multiple requests can run simultaneously over a single connection, significantly boosting throughput for high-demand tasks.

These improvements lay the groundwork for handling large-scale operations with ease.

Scalability for High-Volume Operations

Providers offer access to massive pools of 30–90 million premium residential IPs, allowing large-scale operations without reusing the same addresses. With API-driven automation, developers can programmatically fetch, rotate, and manage thousands of proxies per minute - critical for tasks like bulk account creation and extensive data collection. Strategic load balancing across these networks minimizes downtime caused by single points of failure, achieving a 99.9% reduction in downtime.

"Buying an antidetect browser is only half the battle... you have to find a reliable provider... It is a complex, costly, and time-consuming mess that adds hundreds of dollars to your monthly bill." – Joanna Ok., Content Writer and Marketing Strategist, Multilogin

For teams managing large volumes, platforms like GoUndetected offer role-based access, enabling teams to share browser profiles and proxy resources securely without compromising account isolation. This feature integrates seamlessly with API-driven automation, supporting secure multi-account management. To mimic natural behavior during account management, use sticky sessions that last 5–30 minutes. Instead of targeting specific cities, focus on ISP and region-level targeting to maintain broader IP pools and avoid flagged addresses.

As operations scale, ensuring reliability becomes even more critical.

Reliability and Uptime

Top-tier infrastructure ensures 99.99% uptime. If a proxy fails or exposes your original IP, it can link multiple accounts back to you, potentially triggering chain bans that suspend all related accounts. Automatic failover mechanisms switch IPs in response to 4xx or 5xx errors, maintaining high success rates. Provider dashboards with real-time analytics help monitor for slow or blocked IPs, identifying issues before they impact operations.

Conclusion

Improving proxy speed involves more than just using high-speed proxies. It’s about combining sticky sessions, load balancing, and real-time analytics to create a system that’s fast, reliable, and minimizes detection risks. Whether you’re relying on datacenter proxies for bulk tasks or mobile proxies for managing trusted accounts, each of the ten methods outlined works together to build a strong infrastructure for multi-account operations.

But let’s be clear - speed alone won’t safeguard your accounts. Joanna Okedara-Kalu from Multilogin highlights that IP addresses are often a key vulnerability, especially when it comes to geo-targeting, rate limits, and bans. This is where pairing proxies with proper fingerprint isolation becomes essential. Tools like GoUndetected help by aligning browser signals - like canvas, WebGL, and timezone settings - with your proxy’s location. This ensures that every profile looks like a unique device to the platforms you’re working with.

The benefits of these strategies are tangible. For example, load tests have demonstrated a 40% reduction in latency, dropping from 1.5 seconds to just 0.9 seconds when optimized proxy configurations are used. Premium proxy networks also offer near-perfect uptime and access to millions of curated IPs. For teams managing hundreds - or even thousands - of accounts, these improvements mean fewer bans, faster workflows, and reduced operational costs.

To ensure your setup is working effectively, test for latency under 200 ms, confirm that proxy locations match account regions, and use sticky sessions where needed. If you’re managing accounts across multiple platforms, a tool like GoUndetected can simplify everything. Starting at just $39/month for 50 profiles, it combines proxy management, fingerprint spoofing, and team collaboration all in one package.