The Linux kernel, at boot, organizes and partitions physical RAM into a tree-like hierarchy consisting of nodes, zones, and page frames (page frames are physical pages of RAM) (see Figure 7.19 and Figure 7.20). Nodes are divided into zones, and zones consist of page frames. A node abstracts a physical "bank" of RAM, which will be associated with one or more processor (CPU) cores. At the hardware level, the microprocessors are connected to the RAM controller chip(s); any memory controller chip, and thus any RAM, can be reached from any CPU as well, across an interconnect. Now, obviously, being able to reach the RAM physically nearest the core on which a thread is allocating (kernel) memory will lead to performance enhancement. This very idea is leveraged by hardware and OSes that support the so-called NUMA model (the meaning is explained shortly).
Germany
Slovakia
Canada
Brazil
Singapore
Hungary
Philippines
Mexico
Thailand
Ukraine
Luxembourg
Estonia
Lithuania
Norway
Chile
United States
Great Britain
India
Spain
South Korea
Ecuador
Colombia
Taiwan
Switzerland
Indonesia
Cyprus
Denmark
Finland
Poland
Malta
Czechia
New Zealand
Austria
Turkey
France
Sweden
Italy
Egypt
Belgium
Portugal
Slovenia
Ireland
Romania
Greece
Argentina
Malaysia
South Africa
Netherlands
Bulgaria
Latvia
Australia
Japan
Russia