High Performance VPS with
Low-Density Hosting
Most VPS share everything. Ours doesn't.
Our high performance VPS is a powerful VPS built on low-density hosts — with 16GB dedicated RAM,
Intel Xeon high-frequency CPUs up to 3.3GHz base clock.
Your workload gets the resources it's allocated, not what's left over after your neighbors.
Consistent performance. Predictable pricing.
Product Overview
What is High Performance VPS?
A High Performance VPS Server focuses on resource isolation, low host contention, and predictable compute behavior under load. Our optimized VPS is built around this model, combining dedicated system ram with low-density infrastructure to ensure stable performance for demanding workloads.
Your 16GB of system memory is reserved exclusively for your instance. Other tenants on the host have no access to it — not even during peak hours. No OOM crashes caused by your neighbors.
Each physical host runs far fewer instances than industry-standard over-provisioned VPS environments. Less CPU contention means your workload performs consistently — not just on paper.
Our High Performance VPS includes a dedicated physical GPU assigned exclusively to your instance. This ensures consistent and bare-metal-level performance for compute-intensive workloads.
Simple, Transparent Pricing
Simple, Transparent Pricing
16GB of dedicated RAM, isolated from other tenants. Low-density host allocation means fewer instances competing for CPU — so your performance stays consistent, not best-effort. GPU included as an additional benefit for encoding and graphical tasks.
Performance & Architecture
High Performance VPS vs. Standard VPS — What Actually Changes
The difference is in how the host is provisioned and how resources are allocated — and that gap has a direct impact on whether you get a truly top VPS or just average shared performance.
Real-World Scenarios
What Users Actually Run — And Why Standard VPS Lets Them Down
Each scenario below reflects a real workload our customers run on reliable VPS hosting— along with the specific pain point that drove them to switch from a standard shared plan.
Running always-on game clients like World of Warcraft, Path of Exile, Evony, Metin2, or Angels Online on a standard VPS is unstable. Dozens of tenants share the same CPU and RAM — when neighbors spike, your game client stutters, disconnects, or crashes. The plan looks fine on paper; the host is the problem.
Each host runs far fewer instances than a standard VPS environment. CPU scheduling pressure is minimal at all hours, and the dedicated GPU handles rendering tasks without competing with your game logic for CPU cycles. Your game client stays online and responsive regardless of what other tenants are doing.
Streaming to Twitch, Kick, YouTube, or TikTok via OBS is CPU-intensive on shared VPS plans — there's no GPU to offload encoding. When the host's shared CPU pool gets congested, OBS drops frames, bitrate fluctuates, and stream quality degrades. Viewers leave; the problem isn't the internet connection.
The dedicated GPU handles OBS hardware encoding, removing the CPU bottleneck entirely. Combined with low-density hosting and 100Mbps truly unmetered bandwidth, streams run stably at 1080p 60fps with CPU headroom to spare — and no surprise bandwidth bills at the end of the month.
Running tools like AdsPower or BitBrowser with 10–20 concurrent isolated profiles on a standard VPS is risky. RAM is a shared pool — a spike from one neighbor can exhaust available memory for the entire host, triggering out-of-memory kills on your browser sessions at any moment, losing account state mid-session.
Your 16GB is reserved and isolated from all other tenants. No shared pool, no OOM risk from neighbor spikes. Run 10–20 concurrent browser profiles reliably, and the dedicated US IPv4 ensures each environment maintains a clean, independent network identity throughout the session.
Trading bots and automation scripts running on oversold VPS hosts suffer from unpredictable CPU scheduling delays. Time-sensitive logic — order placement, signal detection, API polling — fails or executes late when the CPU is queued behind dozens of other tenants. On standard VPS, this instability is structural, not random.
Kansas City and Dallas data centers provide low latency to North American exchanges and broker APIs. On a low-density host, CPU resources are actually available when your script needs them. ATAS and similar GUI-based platforms run via Ubuntu Desktop over RDP; Python bots run headless on Ubuntu Server — both 24/7, with no dependency on your local machine.
Running persistent background services — FFmpeg pipelines, AI live generation systems, media monitoring jobs, or API-driven automation — requires a host that doesn't randomly degrade. On oversold VPS plans, sustained workloads are the first to suffer when CPU and RAM contention spikes, often silently.
FFmpeg GPU-accelerated transcoding, AI live broadcast pipelines via API calls, broadcast signal analysis, and IPTV distribution all run reliably on Ubuntu Server with Docker support. Dedicated RAM and low-density CPU allocation mean these services aren't competing for resources — they get what they need, consistently, on a reliable server in the US.
FAQ
Frequently Asked Questions
Two core differences. First, we provide a true dedicated GPU (2GB VRAM) via PCIe passthrough — standard VPS has no GPU, so graphic tasks rely entirely on slow CPU emulation. Second, our physical hosts run far fewer instances than typical over-provisioned VPS environments. Your 16GB RAM and 8 vCPU cores are not diluted across many neighbors, resulting in meaningfully more stable and consistent performance.
A Linux Desktop VPS runs Ubuntu with a full graphical interface, accessible via RDP — the same protocol as Windows Remote Desktop. Ubuntu Desktop 22 LTS is pre-configured for RDP access with no additional setup required. For a step-by-step guide, see: How to Connect to a Linux Desktop Server.
1080p 60fps streaming typically requires 6–12 Mbps; 1080p 30fps requires 4–6 Mbps. At 100Mbps, there is substantial headroom for multiple simultaneous 1080p streams. The bandwidth is truly unmetered — long-duration sessions do not incur additional charges or trigger throttling.
Both CPU and GPU are randomly assigned from a defined pool. CPU options are Intel Xeon E5-2667v2 (3.3GHz), E5-2697v2 (2.7GHz), E5-2697v3 (2.6GHz), or Platinum 8160 (2.1GHz) — all enterprise server-grade processors. GPU options are GT730, P600, or K620, which support hardware video encoding and graphical desktop use. If you need a specific CPU or GPU model, add a note at checkout or contact our support team and we'll do our best to accommodate.
16GB of dedicated RAM provides substantial capacity for concurrent isolated browser profiles. Tools like AdsPower and BitBrowser typically consume 200–500MB per session. All 16GB is exclusively yours, so there is no risk of other tenants affecting your available memory.
Yes. Ubuntu Server provides a stable environment for Python trading scripts, and Ubuntu Desktop allows GUI-based platforms like ATAS to run via remote desktop. US data centers in Kansas City and Dallas offer low latency to major North American exchanges and broker APIs. The server stays online 24/7 with no dependency on your local machine.
The $21/mo rate applies when billed every two years at the regular rate. It includes dedicated GPU, 16GB dedicated RAM, 8 vCPU cores, 120GB SSD, 100Mbps unmetered bandwidth, 1 dedicated US IPv4, automatic backup every 4 weeks, and multiple OS options. There are no hidden bandwidth fees or license surcharges — the renewal rate stays the same.
Yes. This High Frequency VPS is ideal for AI-driven WhatsApp automation using tools like Evolution API and n8n. It can handle workflow orchestration, AI processing, and database operations such as PostgreSQL storage. With optional GPU support and high-frequency CPU performance, it ensures fast response times and stable execution for automation and AI workloads.
Ready to Deploy
Stop Sharing. Start Performing.
Premium VPS hosting with dedicated RAM, high-frequency Intel Xeon CPUs, and reliable server infrastructure — built for workloads that need to stay stable, fast, and online — from $21/mo.