Mylinking

27/04/2026

🔍 What Is Mylinking™ Network TAP? Your Network’s Silent Superhero
Tired of blind spots, risky port mirroring, and downtime during monitoring?
Meet Mylinking™ Network TAP (Test Access Point) — the non‑intrusive hardware that gives you FULL visibility without breaking your network.
✔ What it does
Inline “traffic splitter” that copies 100% of packets
Sends original traffic forward → NO disruption
Delivers duplicate data to IDS, monitoring, forensics tools
Zero latency • Zero packet loss • Zero interference
✔ Why you need it
✅ Passive & Reliable
Passive TAPs need no power — main link stays UP even if power fails.
✅ Total Visibility
Captures full‑duplex traffic, errors, and encrypted packets SPAN ports miss.
✅ Secure Monitoring
Non‑intrusive, undetectable, no attack surface.
✅ Faster Troubleshooting
40% faster incident detection & investigation.
✅ Stronger Security
Improve threat detection by 50% — catch breaches early.
✔ Common Types
Passive TAP: No power, fiber‑friendly, zero failure risk
Active TAP: Regenerates signals for long‑distance links
Bypass TAP: Keeps networks online if security tools fail
Aggregating TAP: Multi‑link → single monitoring tool
👥 Perfect for
NetSec teams • Data centers • Enterprises • IT admins
Ideal for threat hunting, compliance, forensics, performance monitoring.
Visibility = Security. TAPs = Peace of Mind.

20/04/2026

🔥 Next-Gen Network Security & Visibility | Mylinking™ ML‑NPB‑M2000
Tired of single points of failure, network downtime, blind spots in encrypted traffic, and messy security tool deployments?
Say hello to the ALL‑IN‑ONE game‑changer 👇
✅ What It Is
Integrated Network Packet Broker (NPB) + Inline Bypass Switch
2.4Tbps full‑duplex | 2U rack | 4 hot‑swappable module slots
Protects & optimizes your 10/40/100GE network like no other.
🛡️ Core Superpowers
✔ Zero Downtime Protection

13/04/2026

🚀 Boost Your Network Visibility | Mylinking™ ML‑NPB‑5690 Network Packet Broker
Tired of messy traffic, blind monitoring, and overwhelmed security tools?
Meet your new 1.8Tbps network visibility powerhouse 👇
🔹 Key Superpowers
✅ 6×100G/40G QSFP28 + 48×10G/25G SFP28 – full-speed capture & distribution
✅ Replication, Aggregation, Load Balancing – traffic flows exactly where you need
✅ L2–L7 deep filtering (7‑tuple + first 128B custom match)
✅ Hardware VxLAN/GRE/GTP/MPLS encap/decap
✅ Nanosecond precision timestamp
✅ Line‑speed packet slicing & deduplication
✅ SSL decryption & application protocol ID (HTTP, FTP, DNS, MySQL & more)
✅ P4 programmable chip – adapt fast to new protocols & networks
✅ 1U rack, dual redundant power – rock‑solid deployment
🔹 Who It’s For
Network engineers • Security teams • Data centers • Cloud & carrier operators
Perfect for traffic monitoring, protocol analysis, security audit, big data analytics & risk management.
🔹 Why ML‑NPB‑5690
✔ Full visual traffic control
✔ Line‑speed processing, zero packet loss
✔ Flexible CLI/Web/SNMP/SYSLOG management
✔ Enterprise‑grade stability & easy integration
Upgrade your network visibility today.
See traffic clearly. Act intelligently. Stay secure.

30/03/2026

Mylinking ML-NPB-M2000: Your Ultimate Enterprise Network Packet Broker & Inline Bypass Switch 🚀
✅ 2.4Tbps wire-speed packet processing
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1-Overviews With the rapid development of the Internet, the threat of network information security is becoming more and more serious, so a variety of information security protection applications are used more and more widely. Whether it is traditional access control equipment (firewall) or a new ...

23/03/2026

🚨 Mylinking Passive Network TAP: Fail-Safe Network Monitoring, No Compromises!
Non-powered | 100% visibility | No latency/packet loss | Hack-proof
Duplicate fiber/copper traffic for monitoring—zero network disruption 🛡️

16/03/2026

🚀 Mylinking ML-BYPASS-M2000 Network Packet Broker plus Inline Bypass Switch: Your Network’s Security & Reliability Guardian!
2.4Tbps throughput |

09/03/2026

✨ Elevate Your Network Security & Reliability with Mylinking ML-BYPASS-M2000 ✨
Tired of network delays, outages or disruptions when deploying firewalls, IPS, Anti-DDoS and other inline security devices? 🚨 The Mylinking Network Packet Broker + Inline Bypass Switch is the ultimate solution for seamless security deployment and uninterrupted network operation!
💪 Key Power Features:
✅ 2.4Tbps ultra-high processing capacity & 810G/4100G bypass modules, 1610G/4100G monitor modules
✅

02/03/2026

A Mylinking ( ) is a non-powered, fail-safe hardware device that duplicates network traffic (fiber or copper) for without disrupting data flow. It uses splitters to send a copy of traffic to security/analysis tools, ensuring 100% visibility, no added latency, and no packet loss.

Key Features and Benefits:
💎 No Power Required: Unlike active TAPs, they operate without electricity, preventing power failures from breaking the network link.
💎 Unidirectional: Data flows only from the network to the monitoring tool, making it impossible to inject traffic back into the production network.
💎 Invisible & Secure: They are transparent to network devices and do not have an IP address, making them invisible to hackers.
💎 High Reliability: With no active electronics, they are highly durable and suitable for critical infrastructure.

23/02/2026

How Does sFlow Work in Network Packet Broker (NPB)?

A ( ) is a specialized device that aggregates, filters, and distributes network traffic to monitoring tools (e.g., sFlow collectors, IDS/IPS, full packet capture systems). NPBs act as “traffic hubs,” ensuring that monitoring tools receive only the relevant traffic they need—improving efficiency and reducing tool overload. When integrated with sFlow, NPBs enhance sFlow’s capabilities by addressing its limitations and extending its visibility.

1- Centralized sFlow Sampling: The NPB aggregates traffic from multiple network devices (via SPAN/RSPAN ports or ), then runs an sFlow Agent to sample this aggregated traffic. Instead of each device sending samples to the collector, the NPB sends a single stream of samples—reducing collector load and simplifying management. This mode is ideal for large networks, as it centralizes sampling and ensures consistent sampling rates across the network.

2- Traffic Filtering and Optimization: NPBs can filter traffic before sampling, ensuring that only relevant traffic (e.g., traffic from critical subnets, specific applications) is sampled by the sFlow Agent. This reduces the number of samples sent to the collector, improving efficiency and reducing storage requirements. For example, an NPB can filter out internal management traffic (e.g., SSH, SNMP) that does not require monitoring, focusing sFlow on user and application traffic.

3- Sample Aggregation and Correlation: NPBs can aggregate sFlow samples from multiple devices, then correlate this data (e.g., linking traffic from a source IP to multiple destinations) before sending it to the collector. This provides the collector with a more complete view of network flows, addressing sFlow’s limitation of not tracking full flow contexts. Some advanced NPBs also support adjusting sampling rates dynamically based on traffic volume (e.g., increasing sampling rates during traffic spikes to improve accuracy).

4- Redundancy and High Availability: NPBs can provide redundant paths for sFlow samples, ensuring that no data is lost if a collector fails. They can also load-balance samples across multiple collectors, preventing any single collector from becoming a bottleneck.

09/02/2026

is an open, industry-standard protocol developed by Inmon Corporation, defined in RFC 3176. Contrary to what its name might suggest, sFlow has no inherent “flow tracking” logic—it is a sampling-based telemetry technology that collects and exports network traffic statistics to a central collector for analysis. Unlike stateful protocols like , sFlow does not store flow records on network devices; instead, it captures small, representative samples of traffic and device counters, then promptly forwards this data to a collector for processing.

At its core, sFlow is designed for scalability and low resource consumption. It is embedded in network devices ( , , , ) as an sFlow Agent, enabling real-time monitoring of high-speed links (up to 10 Gbps and beyond) without degrading device performance or network throughput. Its standardization ensures compatibility across vendors, making it a universal choice for heterogeneous network environments.

02/02/2026

Traditional three-tier architecture vs. Spine-Leaf architecture


Structure: Tree-like Access (leaves) → Aggregation (branches) → Core (trunk)
Layers: Three layers (Core, Aggregation, Access)
Connectivity: Hierarchical with potential bottlenecks


Structure: Grid-like Data jumps between Leaves via shortest paths
Layers: Two layers (Spine, Leaf)
Connectivity: Partial mesh for balanced performance

The traditional three-tier architecture resembles a tree, where data flows from leaves (Access) through branches (Aggregation) to the trunk (Core). In contrast, Spine-Leaf is like a grid, enabling shortest-path jumps between Leaves.