If you’re in the market for an enterprise switch, consider the HPE ProCurve series. These switches feature 24-port or 48-port models and feature PoE+, SFP+, and 10GBASE-T uplinks. These switches incorporate the latest HP ProVision ASIC technology, hardware engineering advances, and meshed stacking technologies to offer chassis-like resiliency in a stackable form factor.
HP switches are easy to install and manage. Their range of features helps to optimize network bandwidth allocation. They also support stackable cable interconnectivity for easy management. The switches are also suitable for small-to-medium-size networks and home offices. HP networking equipment is backed by a 90-day warranty. Choosing the right HP switch for your needs is a great way to minimize network costs and complexity.
HPE’s ProCurve Switches are designed for enterprise-class, scalable switching. They offer a wide range of models, including HPE 5500 EI switches and HPE FlexNetwork 5130 EI switches. Using an HPE ProCurve switch will improve network performance and enhance network security. With HPE ProCurve switches, you can easily manage and maintain network resources, and enjoy the benefits of high-performance networking.
The HP ProCurve switches are a series of Layer 2 and Layer 3 switches. They are a great option for organizations looking for high-performance connectivity. These switches can also aggregate informative events to analyze user behavior and detect security violations. HP ProCurve switches are ideal for high-performance and secure networking environments. These switches can help businesses and organizations connect users and applications seamlessly and protect against security breaches.
The HP 3800 Switch Series is a family of nine fully managed Gigabit Ethernet switches. These switches come with a choice of 24 or 48 ports and support SFP+ and 10GBASE-T uplinks. These switches utilize the latest hardware engineering advances and HP ProVision ASIC technology. Their innovative meshed stacking technology allows them to deliver chassis-like resiliency in a flexible stackable form factor.