Around the world, “sticker shock” is a growing concern for CIOs and IT leaders confronting the rising cost and limited availability of enterprise components, driven by insatiable demands for AI infrastructure.
Organizations are experiencing a structural shift in infrastructure economics, described as a “memory super-cycle,” whereby demand for infrastructure capable of supporting AI workloads is placing pressure on the supply of standard components. And it’s traditional enterprises that are struggling to keep pace.
Senior Vice President and General Manager, VCF Division at Broadcom.
While hyperscalers purchased years of capacity in advance, manufacturers are prioritizing high-bandwidth memory for GPUs, the specialist chips used to power AI and data heavy workloads.
This is driving up infrastructure costs, constraining availability and extending lead times, creating challenges that not all enterprises are equipped to manage.
Scaling infrastructure used to be simpler – when demand increased, organizations added more hardware. But this is no longer an option. We are at an inflection point where enterprises can’t buy their way out of the problem. The solution to the hardware crisis isn’t producing hardware – there needs to be a focus on smarter software.
The limits of hardware-first thinking
Enterprise IT has long relied on adding capacity to address performance challenges, but the current supply crunch is exposing the limitations of this approach. As demand for AI-ready infrastructure accelerates, memory costs have surged – often accounting for more than 50% of total system spend – while supply remains limited.
Consequently, simply adding capacity is becoming increasingly expensive and, in many cases, unsustainable. Enterprises are being forced to rethink their infrastructure strategy and try and do more with less.
This is where optimization comes in; using software to manage resources more intelligently and efficiently. What began as a response to cost pressure now represents a broader transformation in how infrastructure is designed and operated.
In practice, this means rebalancing resource utilization. In many environments, CPU capacity, the processing power provided by central processing units, remains underused, while workloads are constrained by memory availability.
Techniques such as high-speed NVMe memory tiering, which moves less active data from expensive DRAM to cost-effective NVMe storage, allow organizations to significantly reduce memory costs and increase VM density.
At the same time, extending the life and value of existing infrastructure has become a priority. Approaches such as intelligent oversubscription, workload balancing, and memory optimization enable higher workload density without compromising performance.
Storage efficiency also plays a key role, with data reduction techniques increasing effective capacity while unlocking stranded CPU and memory trapped in rigid configurations.
Together, these software-led strategies are reinforcing the role of private cloud platforms as a control layer for modern infrastructure, empowering enterprises with greater visibility over how resources are allocated and optimized in response to industry constraints.
Smarter software is the answer
The structural supply crisis is a wake-up call, signaling a broader reset in how enterprise IT should be operated.
The long-standing model of addressing performance challenges by purchasing more hardware is no longer sustainable. In response to the memory super-cycle, a software-defined approach centred on optimisation and flexibility is taking hold.
By adopting software-driven optimization within private cloud environments, enterprises can increase efficiency, improve agility, and scale more effectively, meeting evolving infrastructure demands without relying on continual hardware investment.
Organizations that embrace this shift will be better positioned to navigate ongoing constraints, control costs, and sustain digital transformation.
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