Keep it inline. Under the covers SQL Server already stores the MAX columns in a separate 'allocation unit' since SQL 2005. See Table and Index Organization. This in effect is exactly the same as keeping the MAX column in its own table, but w/o any disadvantage of explicitly doing so.
Having an explicit table would actually be both slower (because of the foreign key constraint) and consume more space (because of the DetaiID duplication). Not to mention that it requires more code, and bugs are introduced by... writing code.
alt text http://i.msdn.microsoft.com/ms189051.3be61595-d405-4b30-9794-755842d7db7e(en-us,SQL.100).gif
Update
To check the actual location of data, a simple test can show it:
use tempdb;
go
create table a (
id int identity(1,1) not null primary key,
v_a varchar(8000),
nv_a nvarchar(4000),
m_a varchar(max),
nm_a nvarchar(max),
t text,
nt ntext);
go
insert into a (v_a, nv_a, m_a, nm_a, t, nt)
values ('v_a', N'nv_a', 'm_a', N'nm_a', 't', N'nt');
go
select %%physloc%%,* from a
go
The %%physloc%%
pseudo column will show the actual physical location of the row, in my case it was page 200:
dbcc traceon(3604)
dbcc page(2,1, 200, 3)
Slot 0 Column 2 Offset 0x19 Length 3 Length (physical) 3
v_a = v_a
Slot 0 Column 3 Offset 0x1c Length 8 Length (physical) 8
nv_a = nv_a
m_a = [BLOB Inline Data] Slot 0 Column 4 Offset 0x24 Length 3 Length (physical) 3
m_a = 0x6d5f61
nm_a = [BLOB Inline Data] Slot 0 Column 5 Offset 0x27 Length 8 Length (physical) 8
nm_a = 0x6e006d005f006100
t = [Textpointer] Slot 0 Column 6 Offset 0x2f Length 16 Length (physical) 16
TextTimeStamp = 131137536 RowId = (1:182:0)
nt = [Textpointer] Slot 0 Column 7 Offset 0x3f Length 16 Length (physical) 16
TextTimeStamp = 131203072 RowId = (1:182:1)
All column values but the TEXT and NTEXT were stored inline, including the MAX types.
After changing the table options and insert a new row (sp_tableoption does not affect existing rows), the MAX types were evicted into their own storage:
sp_tableoption 'a' , 'large value types out of row', '1';
insert into a (v_a, nv_a, m_a, nm_a, t, nt)
values ('2v_a', N'2nv_a', '2m_a', N'2nm_a', '2t', N'2nt');
dbcc page(2,1, 200, 3);
Note how m_a and nm_a columns are now a Textpointer into the LOB allocation unit:
Slot 1 Column 2 Offset 0x19 Length 4 Length (physical) 4
v_a = 2v_a
Slot 1 Column 3 Offset 0x1d Length 10 Length (physical) 10
nv_a = 2nv_a
m_a = [Textpointer] Slot 1 Column 4 Offset 0x27 Length 16 Length (physical) 16
TextTimeStamp = 131268608 RowId = (1:182:2)
nm_a = [Textpointer] Slot 1 Column 5 Offset 0x37 Length 16 Length (physical) 16
TextTimeStamp = 131334144 RowId = (1:182:3)
t = [Textpointer] Slot 1 Column 6 Offset 0x47 Length 16 Length (physical) 16
TextTimeStamp = 131399680 RowId = (1:182:4)
nt = [Textpointer] Slot 1 Column 7 Offset 0x57 Length 16 Length (physical) 16
TextTimeStamp = 131465216 RowId = (1:182:5)
For completion sakeness we can also force the one of the non-max fields out of row:
update a set v_a = replicate('X', 8000);
dbcc page(2,1, 200, 3);
Note how the v_a column is stored in the Row-Overflow storage:
Slot 0 Column 1 Offset 0x4 Length 4 Length (physical) 4
v_a = [BLOB Inline Root] Slot 0 Column 2 Offset 0x19 Length 24 Length (physical) 24
Level = 0 Unused = 99 UpdateSeq = 1
TimeStamp = 1098383360
Link 0
Size = 8000 RowId = (1:176:0)
So, as other have already commented, the MAX types are stored inline by default, if they fit. For many DW projects this would be unnacceptable because the typical DW loads must scan or at least range scan, so the sp_tableoption ..., 'large value types out of row', '1'
should be used. Note that this does not affect existing rows, in my test not even on index rebuild, so the option has to be turned on early.
For most OLTP type loads though the fact that MAX types are stored inline if possible is actually an advantage, since the OLTP access pattern is to seek and the row width makes little impact on it.
None the less, regarding the original question: separate table is not necessary. Turning on the large value types out of row
option achieves the same result at a free cost for development/test.