On 10/02/2015 10:52 AM, Julien Grall wrote:
On 02/10/15 15:31, Julien Grall wrote:
Hi David,
On 02/10/15 15:09, David Vrabel wrote:
On 30/09/15 11:45, Julien Grall wrote:
For ARM64 guests, Linux is able to support either 64K or 4K page
granularity. Although, the hypercall interface is alway
On 02/10/15 15:52, Julien Grall wrote:
> On 02/10/15 15:31, Julien Grall wrote:
>> Hi David,
>>
>> On 02/10/15 15:09, David Vrabel wrote:
>>> On 30/09/15 11:45, Julien Grall wrote:
For ARM64 guests, Linux is able to support either 64K or 4K page
granularity. Although, the hypercall interf
On 02/10/15 15:31, Julien Grall wrote:
> Hi David,
>
> On 02/10/15 15:09, David Vrabel wrote:
>> On 30/09/15 11:45, Julien Grall wrote:
>>> For ARM64 guests, Linux is able to support either 64K or 4K page
>>> granularity. Although, the hypercall interface is always based on 4K
>>> page granularity
Hi David,
On 02/10/15 15:09, David Vrabel wrote:
> On 30/09/15 11:45, Julien Grall wrote:
>> For ARM64 guests, Linux is able to support either 64K or 4K page
>> granularity. Although, the hypercall interface is always based on 4K
>> page granularity.
>>
>> With 64K page granularity, a single page
On 30/09/15 11:45, Julien Grall wrote:
> For ARM64 guests, Linux is able to support either 64K or 4K page
> granularity. Although, the hypercall interface is always based on 4K
> page granularity.
>
> With 64K page granularity, a single page will be spread over multiple
> Xen frame.
>
> To avoid
For ARM64 guests, Linux is able to support either 64K or 4K page
granularity. Although, the hypercall interface is always based on 4K
page granularity.
With 64K page granularity, a single page will be spread over multiple
Xen frame.
To avoid splitting the page into 4K frame, take advantage of the